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Database for Failure Theory for FFF

Figure 1 summarizes the subclass of models that predict the failure of materials manufactured by FFF/FDM [1].

Figure 2 summarizes the main headings of the database.

Below is a detailed explanation of each heading in Figure 2.

Reference: Contains the bibliographic reference analyzed to generate specific and general guidelines.
Model:Description of the model according to Figure 1.
Material:The characterized material is specified.
3D printing: Specifies whether the printer used for manufacturing is an industrial (FDM) or desktop (FFF) grade printer.
Characterization: Describes the number, directions, and orientation in which the material must be characterized to use the respective failure model.
Application: Describes in which situations the model can be applied following Figure 1.
error: Specifies the maximum percentage error obtained by comparing the hypothetical load or stress vs. the experimental or actual load at which the part fails.

Failure Theory

Ref.	Objective	Methodology	Conclusion and results	Model	Material	Printer	Characterization	Application	% error/ % improvement
TF1	It focuses on determining whether it is practical to use existing laminate theories in predicting the strength of 3D printed parts.	A theoretical analysis is performed based on data from another bibliographic reference, and then a wide variety of test samples are used under mechanical loading conditions. The failure that occurred during the experiment is subsequently analyzed using the digital image correlation method and fracture surface analysis techniques.	As concluded from the theoretical analysis, it is necessary to initiate some approach towards the construction of a new theory to calculate and predict failure in 3D printed parts. Despite the imperfections in the built layers, failure mostly originated in a couple of similar cases that can be summarized as follows: When the applied force is shear and the layer orientation is parallel to it; When the applied force is normal, and the layer orientation is perpendicular to it; In the plane where the protruding parts are placed on the previously placed plane; At the junction of two different layer orientations.	Maximum stress (EM), Tsai-Hill (TH), Hoffman (H), Norris and McKinnon (NM), Tsai-Wu (TW)	ABS, ABS PLUS, ABS P400	FDM, FFF	Tensile and compressive strength in the X and Y directions, and shear strength in the X-Y plane.	Flat stress, Uniaxial Load On Test Specimen With variable pattern.	-
TF31	To obtain a functional way to calculate the resistance of a 3D printed structure of any type. This thesis evaluates whether the application of the principles of steel structure construction in the CAE model can be used to calculate the strength of the printed part.	The principles of steel frame construction are the failure by tension, compression, bending, torsion, and shearing of the individual members. In this thesis, tension and compression are evaluated for both FDM and Polyjet printed parts. The tested parts are not the ordinary ones from the ASTM standard as in most studies, instead, tension bars, triangles, and icosahedrons have been used.	The printed materials of FDM show more promise in following the principles of steel failure. The structures printed in Polyjet do not seem to be as suitable for having these failure principles as a failure analysis tool. The accuracy of the analysis varies greatly depending on the sample and test scenario. Tensile tests yielded more promising results as the accuracy in most cases was over 70%. Considering that the strength of the printed parts varied around 20%. The compression test was not as accurate considering that the failure load for buckling was incorrect by a factor of up to 5. The parts tested in compression that failed in tension and bending had higher accuracy.	Simple stresss: tension, compression, buckling, tension and bending. Finite elements.	ABS plus	FDM	Tensile and compressive strength in the X, Y, Z directions, bending strength.	Flat stress / uniaxial tension and compression load in three-dimensional structures.	Load error 30% in tension elements. Factor of 5 (400%) in compression elements.
TF7	In the present work, a topology optimization method based on resistance for structures with anisotropic materials is presented. More specifically, we propose a new formulation of topological sensitivity based on the force relationship of non-homogeneous failure criteria, such as the Tsai-Wu.	The application details are examined throughout the document and the effectiveness of the proposed method is demonstrated through numerical and experimental tests.	For numerical experiments, we have focused on the anisotropic resistances of the manufactured parts. In addition, the fact that the materials are fragile must be taken into account through a more comprehensive fracture model and a sensitivity analysis. Furthermore, current printing processes introduce uncertainty in the material behavior. The von Mises criterion is inadequate and more generalized failure indices are suitable.	Tsai-Wu, Von Misses Isotropic (VM), Finite Elements (FE)	ABS	FFF	Tensile and Compressive Strength in the X, Y, Z directions, and Shear Strength in the X-Y, X-Z, Y-Z plane.	Three-dimensional stress / Topological Optimization (TO) Unidirectional load In three-dimensional structures	Improved OT.TW vs Conventional OT Voltage: +63.2% OT. TW vs OT. VM, voltage: +67.5% OT. TW vs OT. VM, compression: -3.7%
TF11	In this document, we discuss the process used to characterize and model the structures of thin-walled polylactic acid (PLA) fabricated using 3D printing.	Material characterization tests were performed and the results are compared with existing data on bulk materials to obtain a set of transverse isotropic constitutive properties and a failure model based on the Tsai-Wu failure criterion. To verify the model, a simple confidence type support was analyzed using both a traditional isotropic material model and our anisotropic model.	The analysis using the isotropic model showed a final load of 75 pounds, while the anisotropic model showed a final load of 55 pounds. The support was fabricated using a fused deposition modeling (FDM) 3D printer and tested to failure. The support failed at 65 pounds, 18% higher than predicted by the anisotropic model. The experimentally measured strength-to-weight ratio of the support was 1522, demonstrating the feasibility of using 3D printing to manufacture lightweight and efficient structures.	Tsai-Wu, Max Stress. Isotropic, Finite Elements (FE)	PLA	FFF	Tensile and compressive strength in the X and Y directions, and shear strength in the X-Y plane.	Flat stress, Bending load On support of Thin wall.	Load error TW: +15% EM: -15%
FA22	An experimental investigation on the influence of the orientation of the piece construction on the bending fatigue behaviors of processed polycarbonate (PC) parts with fused deposition modeling (FDM).	Experimental cyclic stress (S-N) curves were obtained for alternating stress (R-1) and mean stress (R-0.5). The tests show that the orientation of the piece's construction significantly affects the dynamic behavior of FDM parts due to internal anisotropy. In addition, a case study was conducted to test the validity of simulation methods such as finite element analysis (FEA). A designed part was simulated with FEA and the von Mises stresses obtained were corrected using the Goodman correction and the S-N curve for R-1. This part was also manufactured and tested to compare the simulations and experimental results.	The construction direction of the YZ has been found to show the longest lifespan, closely followed by the XY direction. Meanwhile, the XZ direction shows reduced capacity to carry cyclic loads, as expected. A validation test of an FDM part was conducted in order to establish a correlation between it and the isotropic FEA model. The results show good accuracy between the physical part and the estimated design from FEA and S-N curves for R-1. In conclusion, not only the XY and YZ directions should be built to achieve a longer lifespan, but also the cross-step to the machine should be considered a critical parameter that influences the life of the printed part.	Modified Goodman model, potential equation of stress vs. life, Finite Elements.	PC	FDM	Bending stress vs life at 80%, 60%, 40% and 20% of tensile strength, in X, Y and Z directions and at load ratios R-1, R-0.5.	Flat stress / bending load beam element.	Error in life +7.3 to -43% 36.5% average Dependent on print orientation
TF21	The characteristics of the fracture of the 3D printed samples are evaluated using the bending in semicircular specimens (SCB)	The critical failure loads are measured experimentally and have been predicted using both Maximum Tangential Stress (MTS) and Generalized Maximum Tangential Stress (GMTS). The 3D printing process is improved with various approaches to increase the strength of the weld lines of the 3D printed samples to enhance their mechanical specifications. Samples of acrylonitrile butadiene styrene (ABS) SCB with numerous pre-crack angles ranging from pure mode I to pure mode II are produced using a modified 3D printing process.	The results of the tensile tests confirmed that the properties of the specimens created by the modified 3D printing process are independent of the printing orientation. The failure loads predicted with the GMTS criterion had a better correlation compared to the MTS criterion. Due to the small value of the failure strain, the 3D printed ABS specimens could be assumed as brittle samples.	Maximum Tangential Stress (MTS), Generalized Maximum Tangential Stress (GMTS), Finite Elements	ABS	FDM	Tensile strength in the X direction, elastic modulus, Poisson's ratio, Fracture toughness.	Flat stress / Bending load on curved specimen with pre-crack at different angles (mode I and mode I/II crack propagation), brittle isotropic material.	Loading error MTS: +27.36% average GMTS: +4.92% average Angle error MTS: 27.70% average GMTS: 4.52% average Dependent on crack angle. Translation in English: Loading error MTS: +27.36% average GMTS: +4.92% average Angle error MTS: 27.70% average GMTS: 4.52% average Dependent on crack angle.
TF22	In this work, a criterion is applied that incorporates stress interactions to define a three-dimensional fault envelope that could be an invaluable tool for formalizing the adoption of FFF in the industry.	The tensile, compression, and torsion tests were performed on specimens developed in a traditional FFF printer, as well as on a custom 6-axis robotic printer necessary to produce samples in non-standard orientations. These tests were used to calculate the parameters of the mathematical function that describe the failure envelope.	The mechanical tests clearly showed the difference between tensile strength, compression, and shear. The calculated envelope shows strong interactions between axial loads, and a significant interaction between shear stresses and loads applied in parallel and perpendicular directions to the architecture.	Osswald and Osswald	ABS	FFF	Tensile and Compression Strength in X, Y directions, Shear Strength in X-Y plane, Positive and Negative Shear Strength at 45° samples, Stress-Strain Interaction in X, Y tension/compression and X-Y torsion, Shear Strength in 0° specimens, Shear and Tensile Strength at 0°, Shear and Compression Strength at 0°, Shear Strength in 90° specimens, Shear and Tensile Strength at 90°, Shear and Compression Strength at 90°.	Flat stress/ Three-dimensional stress	Load error +/-25%
TF22B	In this work, a criterion is applied that incorporates stress interactions to define a three-dimensional failure envelope that could be an invaluable tool for formalizing the adoption of FFF in the industry. Additionally, the response surface is validated through tests on specimens manufactured in different orientations.	The tensile, compression, and torsion tests were performed on specimens developed in a traditional FFF printer, as well as on a custom 6-axis robotic printer necessary to produce samples in non-standard orientations. These tests were used to calculate the parameters of the mathematical function that describe the failure envelope. Additionally, the response surface is validated through tests on specimens manufactured in different orientations.	The mechanical tests clearly showed the difference between tensile strength, compression, and shear. The calculated envelope shows strong interactions between axial loads, and a significant interaction between shear stresses and loads applied in parallel and perpendicular directions to the architecture.	Osswald and Osswald	ABS	FFF	Tensile and Compression Strength in X, Y directions, Shear Strength in X-Y plane, Positive and Negative Shear Strength in 45° samples, Stress-Strain Interaction in Tension/Compression X, Y and Torsion in X-Y: Shear Strength in 0° specimens, Shear and Tensile Strength at 0°, Shear and Compression Strength at 0°, Shear Strength in 90° specimens, Shear and Tensile Strength at 90°, Shear and Compression Strength at 90°. Validations with specimen at 0°, 30°, 45°, 60°, 90°.	Flat stress	Load error +13.3%
TF24	The final tensile strength of PLA FDM materials was studied theoretically and experimentally with different printing angles.	First, a theoretical model was established to predict the ultimate tensile strength of PLA FDM materials based on the transverse isotropic hypothesis, classical lamination theory, and Tsai-Hill anisotropic performance criterion, and then it was verified through tensile experiments. Compared with previous models, this model provided two types of calculation methods for the in-plane shear modulus, making the calculation results more reliable. The specimens, designed according to the current ISO 527-2-2012 standard on plastic test specimens for multiple uses, were printed at seven different angles (0°, 15°, 30°, 45°, 60°, 75°, 90°) with three layer thicknesses (0.1 mm, 0.2 mm, 0.3 mm) for each angle.	The relative residual sum of squares between the theoretical data and the experimental data was close to zero, confirming the results that the theoretical model can accurately predict the ultimate tensile strength of FDM materials for all angles and thicknesses. It was also found that the final tensile strength decreased as the printing angle became smaller or the layer became thicker.	Tsai-Hill	PLA	FFF	Tensile strength in the X and Y directions, and shear strength in the X-Y plane.	Flat stress, Uniaxial load In test tube With variable weft	Error load / stress. +13% dependent on the angle of the frame, and layer thickness.
TF10	We studied the influence of the dimensions of the extruded filaments and the chemical composition on the mechanical behavior of objects made of acrylonitrile butadiene styrene (ABS) polymer using fused deposition modeling (FDM).	We tested three different filaments on the same material and two different chemical compositions with the same filament. We verified that the ABS FDM specimens show anisotropic mechanical properties as they vary with the extrusion direction of the filaments.	In conclusion, the Classic Lamination Theory (CLT) and the Tsai-Hill performance criterion were found to be capable of predicting the stiffness and strength in the plane of FDM specimens. By varying the chemical composition and dimensions of the filaments, it is possible to fine-tune the properties of the fibers and the fiber-to-fiber bonding, and consequently, the overall mechanical properties at a macro scale, particularly the yield strength and tensile strength at failure.	Tsai-Hill	ABS	FDM	Tensile strength in the X and Y directions, and shear strength in the X-Y plane.	Flat stress, Uniaxial load In test tube With variable weft	Error load / stress. +17% dependent on frame angle, layer thickness, step width, and composition.
TF25	In this document, experimental tests and numerical studies of fracture modes are presented.	A series of experiments were conducted on 3D printed nylon samples made by fused deposition modeling (FDM) and multi-jet fusion (MJF) to determine the load-bearing capacity of notched U-shaped plates manufactured using two different 3D printing techniques. The concept of equivalent material (EMC) was used in conjunction with the J-integral failure criterion to investigate the failure of the notched samples.	Numerical simulations indicated that when the EMC was combined with the J integral criterion, the experimental results could be successfully predicted for 3D printed polymer samples.	Equivalent Material Concept (EMC), J-integral failure criterion, Finite Elements.	Nylon	FDM	Tensile strength in the X direction, elastic modulus, Poisson's ratio, yield stress, cold deformation constants, fracture toughness	Flat stress / Tension load on flat specimen with pre-crack at different angles and radii (mode I and mode I/II crack propagation), ductile isotropic material.	Loading error EMC- J: +0.6-19.5%, +7.7% average Dependent on crack angle and crack radius.
TF26	In this article, the fracture of 3D printed parts with U-notches in Mode I and mixed Mode I/II are experimentally investigated.	To do this, specimens are 3D printed using polycarbonate (PC) and Nylon Filaments using Fused Deposition Modeling (FDM) 3D printing. In manufacturing, U-notched rectangular specimens are produced. A series of experimental tests are conducted to determine the load capacity of 3D printed pieces with U-notches. A combination of J-integral failure criterion and the concept of equivalent material (EMC) is applied to investigate the failure of the specimens. Since the tested material has shown elastic-plastic behavior, the EMC was used to avoid computationally inefficient nonlinear failure analyses.	Based on the obtained results, it is concluded that the combination of EMC and J-integral criteria is capable of predicting the experimental results of different 3D printed materials. Parallel to the experimental investigations, numerical simulations are carried out and a very good agreement between the simulation results and the experimental results is shown.	Equivalent Material Concept (EMC), J-integral failure criterion, Finite Elements.	PC, NYLON	FDM	Tensile strength in the X direction, elastic modulus, Poisson's ratio, yield stress, cold deformation constants, fracture toughness.	Flat stress / Tension load on flat test specimen with pre-crack at different angles and radii (mode I and mode I/II crack propagation), ductile isotropic material.	Loading error EMC- J PC: +4.2-9.8%, +7.7% average EMC- J Nylon: +0.6-19.5%, +7.7% average Dependent on material, crack angle, and crack radius.
M26	This document has two purposes: to find a good model to simulate FDM parts and to correlate a finite element analysis (FEA) simulation with physical tests.	The first objective was achieved by experimentally testing the specimens to determine the nine mechanical constants that define the stiffness matrix of an orthotropic material. Three Young's moduli, three Poisson's ratios, and three shear moduli were experimentally obtained, as well as the tensile yield and ultimate strength of each specimen. A simple piece was designed and manufactured in different orientations to be physically tested and simulated to achieve the second objective. Polycarbonate (PC) was used as the starting material. The combined load included bending and torsion.	Differences in mechanical response were observed during the physical test of the parts depending on the direction of the building. The properties of anisotropic materials must be considered when using FEA simulation of FDM parts that exceed the elastic region. However, with regard to elastic deformations, the material can be considered isotropic using the average values of the mechanical properties since the results are equivalent.	Model Tropic ortho, Isotropic model, Finite Elements	PC	FDM	Elastic modulus in X, Y, Z, Shear modulus in X-Y, X-Z, Y-Z, Poisson's ratio in X-Y, X-Z, Y-Z.	Flat stress / combined bending load and torsion in cantilever beam.	Deflection error MO: +4.22-11.1%, +7.3% average MI: +4.22-10.61% +7.12% average. Dependent on The orientation Of printing
M108	The main objective of this study is to provide an insight into the simulation of modeling of fused deposition modeling (FDM) parts considering the influence of construction and printing orientations.	The modulus of elasticity, strength, and Poisson's ratio in different orientations of construction and printing are obtained by performing uniaxial tensile tests. Based on the results, an appropriate material model is formed and validated by conducting bending tests on flat and curved FDM layer (CLFDM) parts manufactured in various printing and construction orientations. A case study on a flying wing unmanned aerial vehicle (FW-UAV) is presented to analyze the contribution of construction orientation to the strength of the structure.	It has been found that the influence of print orientation or different angle of halftone is minimal and an averaged isotropic material model can be used to simulate parts in a particular build orientation. The build orientation largely influences the elastic mechanical response of flat parts and CLFDM. The case study shows that the effect of build orientation in some cases may not be critical and a deep understanding of the loads interacting with the part is necessary before analyzing the build parameters.	orthoTropic Model , Isotropic model, Finite Elements	ABS PLUS	FDM	Elastic modulus in X, Y, Z, Shear modulus in X-Y, X-Z, Y-Z, Poisson's ratio in X-Y, X-Z, Y-Z.	Flat stress / flat and curved beam bending load.	Translated data: Error deflection Flat: +3.8-11.3% +7.2% average Curve: +4-7.7% +6.1% average Dependent on The orientation Of printing
ME78	The goal is to predict the mechanical failure of a prosthetic foot subjected to a bending test at the tip.	From the characterization of ABS specimens under different printing orientations, the mechanical constants of an orthotropic linear elastic model are obtained. Using this model and Tsai Hill failure theory, both linear elastic behavior and failure load are predicted using a numerical method. It is experimentally validated through the manufacturing and testing of a prosthetic foot.	The model used to predict the elastic behavior of the prosthetic foot is appropriate, the failure theory is not appropriate for predicting failure load.	Tsai-Hill, orthoTropic Model (MO), Finite Elements	ABS	FFF	Tensile strength in the X, Y, Z directions, and shear strength in the X-Y, X-Z, Y-Z plane.	Three-dimensional stress, Bending load on prosthetic foot.	Error deflection +5%-32% Load error not adjusted for failure load
ME82	The objective is to predict the mechanical failure of a prosthetic foot and a prosthetic knee subjected to standardized tests for prosthetic elements.	From the tension characterization of PC, ABS, TPU-Armadillo test specimens in different printing orientations, the mechanical constants of an orthotropic linear elastic model are obtained. Using this model and the theory of maximum stress, both linear elastic behavior and failure load are predicted using a numerical method. It is experimentally validated by manufacturing and testing prosthetic foot and knee made of two different materials and subjected to standardized tests.	The model used to predict the elastic behavior of the prosthetic foot is appropriate, the failure theory predicts the failure load and the respective zone.	Maximum stress, Hill, Tsai-Hill orthoTropic Model, Finite Elements	ABS, PC, TPU-Armadillo	FFF	Tensile strength in the X, Y, Z directions, and shear strength in the X-Y, X-Z, Y-Z plane.	Three-dimensional stress, bending load and compression in prosthetic elements	Deflection error +10% of the TPU-Armadillo foot Load error Less than 30% on the PC/ABS knee.

It is clarified that the references column contains the coded references, but the database also contains additional columns that specify the original reference’s objectives, methods, results, and conclusions.

The database containing the references elaborated on the article by Luis Lopez et al. [1]-[2] can be consulted to consult the specific information of the reference, such as title, authors, journal, and year of publication.

Consult the database of bibliographic references below [1]-[2].

References

year (in Data base)	References codified	Title	author	year	Journal or source	use	case	subcase
2017	1	In the search of design for rapid manufacturing strategies to solve functional and geometrical issues for small series production	Javier Munguia, Carles Riba and Joaquim Lloveras	2007	Proceedings of ICED 2007, the 16th International Conference on Engineering Design DS 42	State of the art methodologies	design methodology	ensemble/DFRM
2017	2	An integrated parameterized tool for designing a customized tracheal stent	Evila L. Melgoza, Lídia Serenó, Antoni Rosell, Joaquim Ciurana	2012	Computer-Aided Design 44 (2012) 1173–1181.	State of the art methodologies	design methodology	customized/medicine/innovation
2017	3	A novel methodology of design for Additive Manufacturing applied to Additive Laser Manufacturing process	RemiPonche, Olivier Kerbrat, Pascal Mognol, Jean-Yves Hascoet	2014	Robotics and Computer-Integrated Manufacturing30(2014)389–398.	State of the art methodologies	design methodology	detail/functional/manufacturability
2017	4	Designing for Additive Manufacturing	B. Vayre, F. Vignat, F. Villeneuve	2012	Procedia CIRP 3 ( 2012 ) 632 – 637	State of the art methodologies	design methodology	detail/concept/DFM/functional/innovation
2017	5	Design for Additive Manufacturing—Element transitions and aggregated structures	Guido A.O. Adam, Detmar Zimmer	2014	CIRP Journal of Manufacturing Science and Technology 7 (2014) 20–28	State of the art methodologies	design methodology	Design rules
2017	6	Design and fabrication of reconstructive mandibular models using fused deposition modeling	Esfandyar Kouhi, Syed Masood and Yos Morsi	2008	Assembly Automation, Vol. 28, Issue 3 (2008), pp. 246–254.	State of the art methodologies	design methodology	customized/medicine/innovation
2017	7	Development of a design feature database to support design for additive manufacturing	Shajahan Bin Maidin, Ian Campbell, Eujin Pei	2012	Assembly Automation, Vol. 32 Issue: 3,pp. 235-244 (2012)	State of the art methodologies	design methodology	Data: database/assembly/function/innovation
2017	8	A rapid design and manufacturing system for product development applications	Wang Guangchun, Li Huiping, Guan Yanjin, Zhao Guoqun	2004	Rapid Prototyping Journal, Vol. 10 Issue: 3,pp. 200-206	State of the art methodologies	design methodology	DFRM
2017	9	Additive manufacturing-enabled design theory and methodology: a critical review	Sheng Yang & Yaoyao Fiona Zhao	2015	Int J Adv Manuf Technol (2015) 80:327–342	State of the art methodologies	design methodology	state of the art
2017	10	Integrated product-process design to suggest appropriate manufacturing technology: a review	Uzair Khaleeq uz Zaman, Ali Siadat, Mickael Rivette, Aamer Ahmed Baqai, Lihong Qiao,	2017	International Journal of Advanced Manufacturing Technology 91(1-4), pp. 1409-1430	State of the art methodologies	design methodology	state of the art
2017	11	Design for additive manufacturing based on the axiomatic design method	Konstantinos Salonitis	2016	Int J Adv Manuf Technol (2016) 87:989–996	State of the art methodologies	design methodology	axiomatic/functional/restriction
2017	12	Enriching design with X through tailored additive manufacturing knowledge: a methodological proposal	Laverne Floriane, Segonds Frédéric, D’Antonio Gianluca, Le Coq Marc	2017	International Journal on Interactive Design and Manufacturing 11(2), pp. 279-288	State of the art methodologies	design methodology	DWAM/concept/functional/assembly/innovation
2017	13	Holistic approach for industrializing AM technology: from part selection to test and verification	Thomas Reiher, Christian Lindemann, Ulrich Jahnke, Gereon Deppe, Rainer Koch	2017	Prog Addit Manuf 31 March, 2017	State of the art methodologies	design methodology	holistic/function/assembly/manufacturability/innovation
2017	14	An identification method for enclosed voids restriction in manufacturability design for additive manufacturing structures	Shutian LIU, Quhao LI, Wenjiong CHEN, Liyong TONG, Gengdong CHENG	2015	Front. Mech. Eng. 2015, 10(2): 126–137	State of the art methodologies	design methodology	manufacturability
2017	15	Additive Manufacturing of Metal Cellular Structures: Design and Fabrication	LI YANG, OLA HARRYSSON, DENIS CORMIER, HARVEY WEST, HAIJUN GONG and BRENT STUCKER	2015	JOM, Vol. 67, No. 3, 2015	State of the art methodologies	design methodology	Analytical/experimental/cellular
2017	16	A Design for Additive Manufacturing Ontology	Mahmoud Dinar, David W. Rosen	2017	Journal of Computing and Information Science in Engineering 17(2),021013	State of the art methodologies	design methodology	Data: database/assembly/function/innovation
2017	17	Additive Manufacturing to Advance Functional Design: An Application in the Medical Field	Claudio Comotti, Daniele Regazzoni, Caterina Rizzi, Andrea Vitali	2017	Journal of Computing and Information Science in Engineering 17(3),031006	State of the art methodologies	design methodology	Function/doctor/innovation/state of the art
2017	18	Assembly Based Methods to Support Product Innovation in Design for Additive Manufacturing: An Exploratory Case Study	Floriane Laverne, Frederic Segonds, Nabil Anwer, Marc Le Coq	2015	Journal of Mechanical Design, Transactions of the ASME 137(12),121701	State of the art methodologies	design methodology	DWAM/concept/functional/assembly/innovation
2017	19	Design and Analysis of Lattice Structures for Additive Manufacturing	Christiane Beyer, Dustin Figueroa	2016	Journal of Manufacturing Science and Engineering, Transactions of the ASME 138(12),121014	State of the art methodologies	design methodology	experimental/cellular
2017	20	Design for Additive Manufacture of Fine Medical Instrumentation: DragonFlex Case Study	Filip Jelınek, Paul Breedveld,	2015	Journal of Mechanical Design, Transactions of the ASME 137(11),111710	State of the art methodologies	design methodology	functional/medical/innovation
2017	21	An Investigation of Key Design for Additive Manufacturing Constraints in Multimaterial Three Dimensional Printing	Nicholas Meisel, Christopher Williams	2015	Journal of Mechanical Design, Transactions of the ASME 137(11),111703	State of the art methodologies	design methodology	Design rules
2017	22	Design Framework for Multifunctional Additive Manufacturing: Placement and Routing of Three-Dimensional Printed Circuit Volumes	A. Panesar, D. Brackett, I. Ashcroft, R. Wildman, R. Hague	2015	Journal of Mechanical Design, Transactions of the ASME 137(11),111708	State of the art methodologies	design methodology	electronic/concept/single-objective optimization
2017	23	Geometric Tailoring: A Design for Manufacturing Method for Rapid Prototyping and Rapid Tooling	Shiva Sambu, Yong Chen, David W. Rosen	2004	Journal of Mechanical Design, Transactions of the ASME 126(4), pp. 571-580	State of the art methodologies	design methodology	experimental/multi-objective optimization
2017	24	A Functional Classification Framework for the Conceptual Design of Additive Manufacturing Technologies	Christopher B. Williams, Farrokh Mistree, David W. Rosen	2011	Journal of Mechanical Design, Transactions of the ASME 133(12),121002	State of the art methodologies	design methodology	concept/functional/process selection
2017	25	Efficient Design-Optimization of Variable-Density Hexagonal Cellular Structure by Additive Manufacturing: Theory and Validation	Pu Zhang, Jakub Toman, Yiqi Yu, Emre Biyikli, Mesut Kirca, Markus Chmielus, Albert C. To	2015	Journal of Manufacturing Science and Engineering, Transactions of the ASME 137(2),021004	State of the art methodologies	design methodology	Analytical/numerical experiment/real experiment/multiscale optimization
2017	26	Integration of Design for Manufacturing Methods With Topology Optimization in Additive Manufacturing	Rajit Ranjan, Rutuja Samant, Sam Anand	2017	Journal of Manufacturing Science and Engineering, Transactions of the ASME 139(6),061007	State of the art methodologies	design methodology	Manufacturability/topological optimization/multi-criteria optimization
2017	27	DESIGN FOR ADDITIVE MANUFACTURING: INTERNAL CHANNEL OPTIMIZATION	M. Pietropaoli, R. Ahlfeld, F. Montomoli, A. Ciani, M. D’Ercole	2017	Journal of Engineering for Gas Turbines and Power 139(10),102101	State of the art methodologies	design methodology	Topological optimization/single-objective optimization
2017	28	Redesign and cost estimation of rapid manufactured plastic parts,	Eleonora Atzeni, Luca Iuliano, Paolo Minetola, Alessandro Salmi,	2010	Rapid Prototyping Journal, Volume 16 · Number 5 · 2010 · 308–317	State of the art methodologies	design methodology	Function/assembly/cost
2017	29	Systematic proposal to calculate price of prototypes manufactured through rapid prototyping an FDM 3D printer in a university lab	Carlos Henrique Pereira Mello, Rafael Calandrin Martins, Bruno Rosa Parra, Edson de Oliveira Pamplona, Eduardo Gomes Salgado, Rodrigo Tavares Seguso	2010	Rapid Prototyping Journal 16/6 (2010) 411–416	State of the art methodologies	design methodology	cost
2017	30	Speed and accuracy evaluation of additive manufacturing machines	Tomaz Brajlih, Bogdan Valentan, Joze Balic, Igor Drstvensek	2011	Rapid Prototyping Journal 17/1 (2011) 64–75	State of the art methodologies	design methodology	design rules
2017	31	Rapid casting solutions: a review	Munish Chhabra, Rupinder Singh	2011	Rapid Prototyping Journal, Vol. 17 (2011) Issue: 5,pp. 328-350	State of the art methodologies	design methodology	state of the art.
2017	32	A repository for DFM problems using description logics	Sungshik Yim, David W. Rosen	2008	Journal of Manufacturing Technology Management, Vol. 19 Issue: 6, (2008), pp. 755-774.	State of the art methodologies	design methodology	Data: database/assembly/manufacturability/guidelines/innovation
2017	33	Computer‐aided build style decision support for stereolithography	Joel E. McClurkin, David W. Rosen	1998	Rapid Prototyping Journal, Vol. 4 Issue: 1, (1998) pp.4-13	State of the art methodologies	design methodology	Tool for decision/experimental/multi-objective optimization.
2017	34	3D roughness profile model in fused deposition modelling	Alberto Boschetto, Veronica Giordano, Francesco Veniali	2013	Rapid Prototyping Journal 19(4),17088799, pp. 240-252	State of the art methodologies	design methodology	Analytical model of roughness / experimental
2017	35	A survey of the design methods for additive manufacturing to improve functional performance	Yunlong Tang, Yaoyao Fiona Zhao	2016	Rapid Prototyping Journal, Vol. 22 Issue: 3,pp. 569-590	State of the art methodologies	design methodology	state of the art
2017	36	Towards a sustainable and economic selection of part candidates for additive manufacturing	Christian Lindemann, Thomas Reiher, Ulrich Jahnke, Rainer Koch	2015	Rapid Prototyping Journal, Vol. 21 Issue: 2,pp. 216-227,	State of the art methodologies	design methodology	Selected part/function/assembly/topological optimization/cost
2017	37	Selection of additive manufacturing processes	Yuanbin Wang, Robert Blache, Xun Xu, (	2017	Rapid Prototyping Journal 23(2), pp. 434-447	State of the art methodologies	design methodology	state of the art
2017	38	On design for additive manufacturing: evaluating geometrical limitations	Guido A. O. Adam, Detmar Zimmer	2015	Rapid Prototyping Journal, Vol. 21 Issue: 6,pp. 662-670,	State of the art methodologies	design methodology	Design rules
2017	39	Rapid prototyping process selection using multi criteria decisión making considering environmental criteria and its decision support system	Vimal KEK, Vinodh S., Brajesh P., Muralidharan R.,	2016	Rapid Prototyping Journal, Vol. 22 Issue: 2,pp. 225-250	State of the art methodologies	design methodology	process selection
2017	40	Selection of selective laser sintering materials for different applications	Sunil Kumar Tiwari, Sarang Pande, Sanat Agrawal, Santosh M. Bobade	2015	Rapid Prototyping Journal, Vol. 21 Issue: 6,pp. 630-648,	State of the art methodologies	design methodology	material selection
2017	41	A new global approach to design for additive manufacturing	R. Ponche , J.Y. Hascoet , O. Kerbrat & P. Mognol	2012	Virtual and Physical Prototyping, 7:2, 93-105	State of the art methodologies	design methodology	DFAM/manufacturability/functionality/assemblability/restrictions
2017	42	A new methodological framework for design for additive manufacturing	Martin Kumke, Hagen Watschke & Thomas Vietor	2016	Virtual and Physical Prototyping, 11:1, 3-19	State of the art methodologies	design methodology	state of the art
2017	43	An additive manufacturing process model for product family design	Ningrong Lei, Xiling Yao, Seung Ki Moon & Guijun Bi	2016	Journal of Engineering Design, 27:11, 751-767	State of the art methodologies	design methodology	product family design
2017	44	Design for Additive Manufacturing of Cellular Structures	Chen Chu, Greg Graf & David W. Rosen	2008	Computer-Aided Design and Applications, 5:5, 686-696	State of the art methodologies	design methodology	Design and optimization at multiscale/innovation (software)
2017	45	Design knowledge representation to support personalised additive manufacturing	Hyunwoong Ko, Seung Ki Moon & Kevin N. Otto	2015	Virtual and Physical Prototyping, 10:4, 217-226,	State of the art methodologies	design methodology	customization/software/innovation
2017	46	Material and design considerations for rapid manufacturing	R. Hague , S. Mansour & N. Saleh	2004	International Journal of Production Research, 42:22, 4691-4708	State of the art methodologies	design methodology	mechanical properties/design rules/design rules
2017	47	Research supporting principles for design for additive manufacturing	David W. Rosen	2014	Virtual and Physical Prototyping, 9:4, 225-232	State of the art methodologies	design methodology	state of the art
2017	48	The status, challenges, and future of additive manufacturing in engineering	Wei Gao, Yunbo Zhang, Devarajan Ramanujan, Karthik Ramani, Yong Chen, Christopher B. Williams, Charlie C.L. Wang, Yung C. Shin, Song Zhang, Pablo D. Zavattieri	2015	Computer-Aided Design 69 (2015) 65–89	State of the art methodologies	design methodology	state of the art
2017	49	Design and manufacture of high performance hollow engine valves by Additive Layer Manufacturing	D. Cooper J. Thornby, N. Blundell, R. Henrys, M.A. Williams, G. Gibbons	2015	Materials and Design 69 (2015) 44–55	State of the art methodologies	design methodology	Case study/topological optimization/reverse engineering
2017	50	Additive manufacturing: Toward holistic design	Bradley H. Jared ⁎, Miguel A. Aguilo, Lauren L. Beghini, Brad L. Boyce, BrettW. Clark, Adam Cook, Bryan J. Kaehr, Joshua Robbins	2017	Scripta Materialia 135, pp. 141-147	State of the art methodologies	design methodology	state of the art
2017	51	A new part consolidation method to embrace the design freedom of additive manufacturing	Sheng Yang, Yunlong Tang, Yaoyao Fiona Zhao	2015	Journal of Manufacturing Processes 20 (2015) 444–449	State of the art methodologies	design methodology	Function/assembly/topological
2017	52	Grouping parts for multiple parts production in Additive Manufacturing	Yicha Zhang*, Alain Bernard	2014	Procedia CIRP 17 ( 2014 ) 308 – 313	State of the art methodologies	design methodology	manufacturability
2017	53	Design for Additive Manufacturing – Supporting the Substitution of Components in Series Products	Christoph Klahn*, Bastian Leutenecker, Mirko Meboldt	2014	Procedia CIRP 21 ( 2014 ) 138 – 143	State of the art methodologies	design methodology	Functionality/assembly/customization
2017	54	Evaluating the Design for Additive Manufacturing: A Process Planning Perspective	Yicha Zhanga, Alain Bernard, Ravi Kumar Gupta, Ramy Harik	2014	Procedia CIRP 21 ( 2014 ) 144 – 150	State of the art methodologies	design methodology	Function/manufacturability/process
2017	55	Design Strategies for the Process of Additive Manufacturing	Christoph Klahn, Bastian Leutenecker, Mirko Meboldt	2015	Procedia CIRP 36 ( 2015 ) 230 – 235.	State of the art methodologies	design methodology	functionality
2017	56	Towards Annotations and Product Definitions for Additive Manufacturing	Paul Witherell, Jennifer Herron, Gaurav Ameta	2016	Procedia CIRP 43 ( 2016 ) 339 – 344	State of the art methodologies	design methodology	State of the art (dimensional and geometric tolerances)
2017	57	Design Guidelines for Additive Manufactured Snap-Fit Joints	Christoph Klahn, Daniel Singer, Mirko Meboldt	2016	Procedia CIRP 50 ( 2016 ) 264 – 269	State of the art methodologies	design methodology	Functional/assembly/joints
2017	58	(Re)Design for Additive Manufacturing	Sebastian Hällgren, Lars Pejryd, Jens Ekengren	2016	Procedia CIRP 50 ( 2016 ) 246 – 251.	State of the art methodologies	design methodology	Manufacturability/multiscale optimization
2017	59	Considering Part Orientation in Design for Additive Manufacturing	Bastian Leutenecker-Twelsiek, Christoph Klahn, Mirko Meboldt	2016	Procedia CIRP 50 ( 2016 ) 408 – 413	State of the art methodologies	design methodology	manufacturabilidad/metodo de decision translated into English is manufacturability/decision method.
2017	60	A design framework to replace conventional manufacturing processes with additive manufacturing for structural components: A formula student case study	Harry Bikas, John Stavridis, Panagiotis Stravropoulos, George Chryssolouris	2016	, Procedia CIRP 57 (2016) 710-715.	State of the art methodologies	design methodology	ensemble/functionality
2017	61	Design for Rapid Manufacturing functional SLS parts	Walter Kruf M. Sc., Bart van de Vorst B. Sc., Hessel Maalderink B. Sc., Nico Kamperman M. Sc,	2006	Intelligent Production Machines and Systems (2006)	State of the art methodologies	design methodology	functional
2017	62	Additive manufacturing and sustainability: an exploratory study of the advantages and challenges	Simon Ford, M_elanie Despeisse	2016	Journal of Cleaner Production 137 (2016) 1573-1587	State of the art methodologies	design methodology	state of the art.
2017	63	Additive Manufacturing for product improvement at Red Bull Technology	David E. Cooper, Mark Stanford, Kevin A. Kibble, Gregory J. Gibbons	2012	Materials and Design 41 (2012) 226–230	State of the art methodologies	design methodology	case study
2017	64	Additive Manufacturing of Custom Orthoses and Prostheses – A Review	Yu-an Jin, Jeff Plott, Roland Chen, Jeffrey Wensman, Albert Shih	2015	Procedia CIRP 36 ( 2015 ) 199 – 204	State of the art methodologies	design methodology	state of the art.
2017	65	A new Steiner patch based file format for Additive Manufacturing Processes	Ratnadeep Paul, Sam Anand	2015	Computer-Aided Design 63 (2015) 86–100	State of the art methodologies	design methodology	New CNC format
2017	66	A voxel-based method of constructing and skinning conformal and functionally graded lattice structures suitable for additive manufacturing	A.O. Aremu, J.P.J. Brennan-Craddock, A. Panesar, I.A. Ashcroft∗, R.J.M. Hague, R.D. Wildman,	2017	Additive Manufacturing 13 (2017) 1–13	State of the art methodologies	design methodology	optimization grid
2017	67	Build Orientation Determination for Multi-material Deposition Additive Manufacturing with Continuous Fibers	Yicha Zhang, Wout De Backer, Ramy Harik, Alain Bernard	2016	Procedia CIRP 50 ( 2016 ) 414 – 419	State of the art methodologies	design methodology	manufacturability
2017	68	Characterization of effect of support structures in laser additive manufacturing of stainless Steel	Jukka-Pekka Järvinen, Ville Matilainen, Xiaoyun Li, Heidi Piili, Antti Salminen, Ismo Mäkelä, Olli Nyrhilä	2014	Physics Procedia 56 ( 2014 ) 72 – 81	State of the art methodologies	design methodology	Support/manufacturability/design rule
2017	69	A framework to reduce product environmental impact through design optimization for additive manufacturing	Yunlong Tang, Kieran Mak, Yaoyao Fiona Zhao	2016	Journal of Cleaner Production 137 (2016) 1560e1572.	State of the art methodologies	design methodology	environmental impact
2017	70	Generalized requirements and decompositions for the design of test parts for micro additive manufacturing research	Mary Kathryn Thompson, and Line Harder Clemmensen	2015	Procedia CIRP 34 ( 2015 ) 229 – 235	State of the art methodologies	design methodology	functional
2017	71	Geometric consideration of support structures in part overhang fabrications by electron beam additive manufacturing	Bo Cheng, Kevin Chou	2015	Computer-Aided Design 69 (2015) 102–111	State of the art methodologies	design methodology	Manufacturability/design rule
2017	72	Permeability and strength of a porous metal structure fabricated by additive manufacturing	Tatsuaki Furumoto, Ayato Koizumi, Mohd Rizal Alkahari, Rui Anayama, Akira Hosokawa, Ryutaro Tanaka, Takashi Ueda	2015	Journal of Materials Processing Technology 219 (2015) 10–16	State of the art methodologies	design methodology	Function/design rule
2017	73	Redesign Optimization for Manufacturing Using Additive Layer Techniques	Konstantinos Salonitis, Saeed Al Zarban	2015	Procedia CIRP 36 ( 2015 ) 193 – 198	State of the art methodologies	design methodology	Functionality/optimization
2017	74	Towards early estimation of part accuracy in additive manufacturing	Giovanni Moroni, Wahyudin P. Syam, Stefano Petr`o	2014	Procedia CIRP 21 ( 2014 ) 300 – 305	State of the art methodologies	design methodology	Manufacturability/design rules
2017	75	Bidirectional Evolutionary Structural Optimization (BESO) based design method for lattice structure to be fabricated by additive manufacturing	Yunlong Tang, Aidan Kurtz, Yaoyao Fiona Zhao	2015	Computer-Aided Design 69 (2015) 91–101	State of the art methodologies	design methodology	cellular function/optimization and lattice
2017	76	Identification of optimal printing conditions for laser printing of alginate tubular constructs	Ruitong Xiong, Zhengyi Zhang, Yong Huang	2015	Journal of Manufacturing Processes 20 (2015) 450–455	State of the art methodologies	design methodology	Manufacturability/design rules
2017	77	Design for additive manufacturing: Automated build orientation selection and optimization	Marijn P. Zwier and Wessel W. Wits	2016	Procedia CIRP 55 ( 2016 ) 128 – 133	State of the art methodologies	design methodology	Manufacturability/optimization of orientation
2017	78	Two-dimensional placement optimization for multi-parts production in additive manufacturing	Yicha Zhang, RaviKumar Gupta , Alain Bernard	2016	Robotics and Computer-Integrated Manufacturing 38 (2016) 102–117	State of the art methodologies	design methodology	Manufacturability/optimization of orientation
2017	79	Optimal topology for additive manufacture: A method for enabling additive manufacture of support-free optimal structures	Martin Leary, Luigi Merli, Federico Torti, Maciej Mazur, Milan Brandt	2014	Materials and Design 63 (2014) 678–690	State of the art methodologies	design methodology	manufacturability/function/optimization
2017	80	Topology optimization of 3D self-supporting structures for additive manufacturing	Matthijs Langelaar	2016	Additive Manufacturing 12 (2016) 60–70	State of the art methodologies	design methodology	manufacturability/function/optimization
2017	81	An Application Specific Additive Design Methodology for the Determination of Heatsink Geometry Topologies	Robin Bornoff, John Parry	2015	Therminic 2015, 21st INTERNATIONAL WORKSHOP on Thermal Investigations of ICs and Systems, September / October 2015, Paris / FR	State of the art methodologies	design methodology	function/optimization
2017	82	DESIGN OF LATTICE STRUCTURE FOR ADDITIVE MANUFACTURING	Wenjin Tao, Ming C. Leu	2016	Proceedings of ISFA2016, 2016 International Symposium on Flexible Automation Cleveland, Ohio, U.S.A., 1 - 3 August, 2016	State of the art methodologies	design methodology	State of the art (cell and lattice design)
2017	82 B	Design and additive manufacturing of cellular lattice structures	Hao, L., Raymont, D., Yan, C., Hussein, A., Young, P.	2011-2012	Innovative Developments in Virtual and Physical Prototyping - Proceedings of the 5th International Conference on Advanced Research and Rapid Prototyping pp. 249-254	State of the art methodologies	design methodology	State of the art (cell and lattice design)
2017	83	Influences of Additive Manufacturing on Design Processes for Customised Products	Dieter Krause, Johanna Spallek, Olga Sankowski	2016	Conference Paper · May 2016, INTERNATIONAL DESIGN CONFERENCE - DESIGN 2016 Dubrovnik - Croatia, May 16 - 19, 2016	State of the art methodologies	design methodology	State of the art (personalization)
2017	84	Design Optimization Method for Additive Manufacturing of the Primary Mirror of a Large-Aperture Space Telescope	Rui Hu; Wenjiong Chen, Quhao Li; Shutian Liu; Ping Zhou, Zhigang Dong; and Renke Kang	2017	J. Aerosp. Eng., 2017, 30(3): 04016093	State of the art methodologies	design methodology	Case study (functional/optimization)
2017	85	Design and Additive Manufacturing of Periodic Ceramic Architectures	G. Bianchi, S. Gianella, A. Ortona	2017	J. Ceram. Sci. Tech., 08 [01] 59-66 (2017).	State of the art methodologies	design methodology	function/innovation
2017	86	Implementation of the additive technology to the design and manufacturing of vibroisolators with required filtering	V.G. Smelov, A.V. Sotov, A.V. Agapovichev, M.M. Laktionova, T.M. Tomilina	2017	Procedia Engineering 176 ( 2017 ) 540 – 545	State of the art methodologies	design methodology	Case study (function)
2017	87	A Low-Cost Environmental Monitoring System: How to Prevent Systematic Errors in the Design Phase through the Combined Use of Additive Manufacturing and Thermographic Techniques	Francesco Salamone *, Ludovico Danza, Italo Meroni and Maria Cristina Pollastro	2017	Sensors 2017, 17, 828; doi:10.3390/s17040828	State of the art methodologies	design methodology	Case study (function)
2017	88	An improved lattice structure design optimization framework considering additive manufacturing constraints	Recep M. Gorguluarslan, Umesh N. Gandhi, Yuyang Song, Seung-Kyum Choi	2017	Rapid Prototyping Journal, Vol. 23 Issue: 2, pp.305-319,	State of the art methodologies	design methodology	Function/manufacturability/optimization
2017	89	Lattice Structure Design and Optimization With Additive Manufacturing Constraints	Yunlong Tang, Guoying Dong, Qinxue Zhou, and Yaoyao Fiona Zhao	2017	IEEE TRANSACTIONS ON AUTOMATION SCIENCE AND ENGINEERING, 2017	State of the art methodologies	design methodology	Function/manufacturability/optimization
2017	90	Design framework for multifunctional additive manufacturing: Coupled optimization strategy for structures with embedded functional systems	Ajit Panesar∗, Ian Ashcroft, David Brackett, Ricky Wildman, Richard Hague	2017	Additive Manufacturing 16 (2017) 98–106	State of the art methodologies	design methodology	function/optimization
2017	91	Information exchange standards for design, tolerancing and Additive Manufacturing: a research review	Jinhua Xiao, Nabil Anwer, Alexandre Durupt, Julien Le Duigou, Benoît Eynard	2017	, Int J Interact Des Manuf Received: 12 March 2017 / Accepted: 3 May 2017 © Springer-Verlag France 2017	State of the art methodologies	design methodology	State of the art (tolerance standards)
2017	92	Bond interface design for single lap joints using polymeric additive manufacturing	R. Garcia, P. Prabhakar	2017	Composite Structures 176 (2017) 547–555	State of the art methodologies	design methodology	Design of joints in assemblies
2017	93	Design for additive manufacturing method for a mechanical system downsizing	Myriam Orquéra*, Sébastien Campocasso, Dominique Millet	2017	Procedia CIRP 60 ( 2017 ) 223 – 228	State of the art methodologies	design methodology	function/assembly
2017	94	Analysis of Design Guidelines for Automated Order Acceptance in Additive Manufacturing	Jan-Peer Rudolph, Claus Emmelmann	2017	Procedia CIRP 60 ( 2017 ) 187 – 192	State of the art methodologies	design methodology	manufacturability
2017	95	Integrated Design For Additive Manufacturing based on Skin-Skeleton Approach	Elnaz Asadollahi-Yazdi, Julien Gardan, Pascal Lafon	2017	Procedia CIRP 60 ( 2017 ) 217 – 222	State of the art methodologies	design methodology	Functionality/manufacturability
2017	96	DfAM in the design process: a proposal of classification to foster early design stages.	Laverne, F., et al.	2014	Confere. Sibenik, Croatia	State of the art methodologies	design methodology	state of the art.
2017	97	Self-supporting structure design in additive manufacturing through explicit topology optimization	Guo, X., Zhou, J., Zhang, W., (...), Liu, C., Liu, Y.	2017	Computer Methods in Applied Mechanics and Engineering 323, pp. 27-63	State of the art methodologies	design methodology	manufacturability/function/optimization
2017	98	Additive Manufacturing-Oriented Design of Graded Lattice Structures Through Explicit Topology Optimization	Liu, C., Du, Z., Zhang, W., Zhu, Y., Guo, X.	2017	Journal of Applied Mechanics, Transactions ASME 84(8),081008	State of the art methodologies	design methodology	Function/multiscale optimization
2019	99	Multidisciplinary design optimization to identify additive manufacturing resources in customized product development	Yao, X., Moon, S.K., Bi, G.	2017	Journal of Computational Design and Engineering 4(2), pp. 131-142	State of the art methodologies	design methodology	functional/customization/innovation
2019	100 (O29)	Support structure design in additive manufacturing based on topology optimization	Kuo, Y.-H., Cheng, C.-C., Lin, Y.-S., San, C.-H.	2017	Structural and Multidisciplinary Optimization pp. 1-13	State of the art methodologies	design methodology	function/optimization
2019	101	An improved methodology for design of custom-made hip prostheses to be fabricated using additive manufacturing technologies	Sadegh Rahmati, Farid Abbaszadeh, Farzam Farahmand	2012	Rapid Prototyping Journal, Vol. 18 Issue: 5,pp. 389-400	State of the art methodologies	design methodology	Function/custom/medicine/innovation
2019	102	Selecting parts for additive manufacturing in service logistics	Nils Knofius, Matthieu C. van der Heijden, W.H.M. Zijm	2016	Journal of Manufacturing Technology Management, Vol. 27 Issue: 7,pp. 915-931	State of the art methodologies	design methodology	economy
2019	103	A new process for design and manufacture of tailor-made functionallygraded composites through friction stir additive manufacturing	Sharma, A., Bandari, V., Ito, K., (...), Ramji, R.M., Himasekhar, H.S.	2017	Journal of Manufacturing Processes 26, pp. 122-130	State of the art methodologies	design methodology	New design and manufacturing method AM/innovation/design rule
2019	104	Interactive design of dental implant placements through CAD-CAM technologies: from 3D imaging to additive manufacturing	Barone, S., Casinelli, M., Frascaria, M., Paoli, A., Razionale, A.V.	2016	International Journal on Interactive Design and Manufacturing 10(2), pp. 105-117	State of the art methodologies	design methodology	customization/medicine/innovation
2019	105	An additive manufacturing filter for topology optimization of print-ready designs	Langelaar, M.	2017	Structural and Multidisciplinary Optimization 55(3), pp. 871-883	State of the art methodologies	design methodology	Function/topological optimization/restriction
2019	106	Additive manufacturing integration with topology optimization methodology for innovative product design	Primo, T., Calabrese, M., Del Prete, A., Anglani, A.	2017	International Journal of Advanced Manufacturing Technology pp. 1-13	State of the art methodologies	design methodology	function/multiscale optimization/innovation
2019	107 ( 310)	Topology optimization considering overhang constraints: Eliminating sacrificial support material in additive manufacturing through design	Gaynor, A.T., Guest, J.K.	2016	Structural and Multidisciplinary Optimization 54(5), pp. 1157-1172	State of the art methodologies	design methodology	Function/topological optimization/restriction
2019	108	A design, mechanical rating, and load adaptation method for cellular components for additive manufacturing	Ziegler, T., Jaeger, R., Koplin, C.	2017	International Journal of Advanced Manufacturing Technology 90(9-12), pp. 2875-2884	State of the art methodologies	design methodology	Function/Cellular optimization
2019	109	A new approach to the design and optimisation of support structures in additive manufacturing	Strano, G., Hao, L., Everson, R.M., Evans, K.E.	2013	International Journal of Advanced Manufacturing Technology 66(9-12), pp. 1247-1254	State of the art methodologies	design methodology	Function/optimization/manufacturability
2019	110	Topology optimization for hybrid additive-subtractive manufacturing	Liu, J., To, A.C.	2017	Structural and Multidisciplinary Optimization 55(4), pp. 1281-1299	State of the art methodologies	design methodology	Function/optimization/hybrid manufacturing
2019	111	Customised design and manufacture of protective face masks combining a practitioner-friendly modelling approach and low-cost devices for digitising and additive manufacturing	Cazon, A., Aizpurua, J., Paterson, A., Bibb, R., Campbell, R.I.	2014	Virtual and Physical Prototyping 9(4), pp. 251-261	State of the art methodologies	design methodology	function/custom/reverse engineering
2019	112	Cross-sectional Structural Analysis for 3D Printing Optimization	Umetani, N., Schmidt, R.	2013	SIGGRAPH Asia 2013 Technical Briefs, SA 2013 5	State of the art methodologies	design methodology	function/optimization
2019	113	Materializing design: the implications of rapid prototyping in digital design	Larry Sass	2006	Design Studies Vol 27 No. 3 May 2006	State of the art methodologies	design methodology	Architecture
2017	114	Design for Additive Manufacturing: Trends, opportunities, considerations, and constraints	Mary Kathryn Thompson a,*, Giovanni Moroni (2)b, Tom Vaneker (2)c, Georges Fadel d, R. Ian Campbell e, Ian Gibson f, Alain Bernard (1)g, Joachim Schulz (3)h, Patricia Graf h, Bhrigu Ahuja i, Filomeno Martina	2016	CIRP Annals - Manufacturing Technology 65(2), pp. 737-760	State of the art methodologies	design methodology	state of the art.
2017	115	3D printing with polymers: Challenges among expanding options and opportunities	Jeffrey W. Stansburya,b,∗, Mike J. Idacavage	2016	d e n t a l m a t e r i a l s 3 2 ( 2 0 1 6 ) 54–64	State of the art methodologies	methodology	state of the art.
2019	116	The additive manufacturing innovation: a range of implications	Harm-Jan Steenhuis, Leon Pretorius	2017	Journal of Manufacturing Technology Management, Vol. 28 Issue: 1, pp.122-143	State of the art methodologies	methodology	State of the art/innovation
2019	117	A scientometric review of hotspots and emerging trends in additive manufacturing	Yuran Jin, Shoufeng Ji, Xin Li, Jiangnan Yu	2017	Journal of Manufacturing Technology Management, Vol. 28 Issue: 1, pp.18-38	State of the art methodologies	methodology	state of the art.
2019	118	Integrated product-process design: Material and manufacturing process selection for additive manufacturing using multi-criteria decision making	Uzair Khaleeq uz Zaman a , ∗ , Mickael Rivette a , Ali Siadat a , Seyed Meysam Mousavi b	2018	Robotics and Computer–Integrated Manufacturing 51 (2018) 169–180	State of the art methodologies	methodology	material selection and processes
2019	119 (161)	Design methodology for porous composites with tunable thermal expansion produced by multi-material topology optimization and additive manufacturing	Akihiro Takezawa a, *, Makoto Kobashi b	2017	Composites Part B 131 (2017) 21e29	State of the art methodologies	methodology	thermal function
2019	120	Metal additive manufacturing of a high-pressure micro-pump	Wessel W. Witsa,*, Sander J. Weitkampa, Johannes van Esb	2013	Procedia CIRP 7 ( 2013 ) 252 – 257	State of the art methodologies	methodology	Function (fluid mechanics), (case study)
2019	121	Process Planning for the Fuse Deposition Modeling of Ankle-Foot-Othoses	Yuan Jina,b* , Yong Heb, Albert Shiha,c	2016	Procedia CIRP 42 ( 2016 ) 760 – 765	State of the art methodologies	methodology	function/customization/medicine
2019	122 (169)	Systematic Biomimetic Part Design for Additive Manufacturing	Tobias Kamps*a, Melanie Gralowa, Georg Schlicka, Gunther Reinhart a, b	2017	Procedia CIRP 65 ( 2017 ) 259 – 266	State of the art methodologies	methodology	Function (resistance and weight) / optimization
2019	123 (168)	Cloud-based Design and Additive Manufacturing of Custom Orthoses	Shih, A., Park, D.W., Yang, Y.-Y., Chisena, R., Wu, D	2017	Procedia CIRP , 63 pp. 156 - 160	State of the art methodologies	methodology	function/customization/medicine/innovation
2019	124 (341)	An additive manufacturing oriented design approach to mechanical assemblies	Germain Sossou, Frédéric Demoly ⇑, Ghislain Montavon, Samuel Gomes	2018	Journal of Computational Design and Engineering 5 (2018) 3–18	State of the art methodologies	methodology	Function (mechanics)/assembly
2019	125	Fundamentals of mechanical design and analysis for AM fabricated parts	Alexandre V. Manzhirov	2017	Procedia Manufacturing 7 (2017) 59-65	State of the art methodologies	methodology	function (mechanics)
2019	126 (176)	Physical Rigging for Physical Models and Posable Joint Designs Based on Additive Manufacturing Technology	Yingtian Li, Yonghua Chen*	2017	Procedia Manufacturing 11 ( 2017 ) 2235 – 2242	State of the art methodologies	methodology	Function (mechanics)/assembly
2019	127 (342)	Design for manufacturing to design for Additive Manufacturing: Analysis of implications for design optimality and product sustainability	Gebisa, A.W., Lemu, H.G.	2017	Procedia Manufacturing, 13, pp. 724-731.	State of the art methodologies	methodology	Function/optimization/sustainability
2019	128 (153)	Methods and tools for identifying and leveraging additive manufacturing design potentials	Martin Kumke1 · Hagen Watschke2 · Peter Hartogh2 · Ann-Kathrin Bavendiek2 · Thomas Vietor2	2017	Int J Interact Des Manuf, Received: 10 March 2017 / Accepted: 18 April 2017	State of the art methodologies	methodology	function/optimization/innovation
2019	129 (151)	A methodological proposal to link Design with Additive Manufacturing to environmental considerations in the Early Design Stages	Foteini MarkouFrédéric SegondsMaud RioNicolas Perry	2017	International Journal on Interactive Design and Manufacturing (IJIDeM) November 2017, Volume 11, Issue 4, pp 799–812	State of the art methodologies	methodology	Environment
2019	130	Interactive design for additive manufacturing: a creative case of synchronous belt drive	Hu Fuwen · Cheng Jiajian · He Yunhua	2017	International Journal on Interactive Design and Manufacturing, pp. 1-13.	State of the art methodologies	methodology	function (case study) / innovation
2019	131 ( 180)	Design for additive manufacturing of customized cast with porous shell structures	Yeong-Eun Lim, Na-Hyun Kim, Hye-Jin Choi and Keun Park	2017	Journal of Mechanical Science and Technology 31 (11) (2017) 5477~5483	State of the art methodologies	methodology	function/customization/medicine/innovation
2019	132	DESIGN RULES FOR ADDITIVE MANUFACTURING: A CATEGORIZATION	Mahesh Mani, Paul Witherell, Jacob Jee	2017	Proceedings of the ASME Design Engineering Technical Conference, 1, art. no. 68446.	State of the art methodologies	methodology	design rules
2019	133 ( 178)	Which material design is possible under additive manufacturing: A fuzzy approach	Zapata, F., Kosheleva, O., Kreinovich, V.	2017	IFSA-SCIS 2017 - Joint 17th World Congress of International Fuzzy Systems Association and 9th International Conference on Soft Computing and Intelligent Systems, art. no. 8023228.	State of the art methodologies	methodology	material selection
2019	134	Augmenting Computer-Aided Design Software with Multi-Functional Capabilities to Automate Multi-Process Additive Manufacturing	Callum Bailey, Efrain Aguilera, David Espalin, Jose Motta, Alfonso Fernandez, Mireya A. Perez, Christopher DiBiasio, Dariusz Pryputniewicz, Eric MacDonald, Ryan B. Wicker	2017	IEEE Access.	State of the art methodologies	methodology	systems of design and manufacturing
2019	135	An Overview on Additive Manufacturing of Polymers	Iwona Jasiuk, Diab W. Abueidda, Christopher Kozuch, Siyuan Pang, Frances Y. Su & Joanna McKittrick	2018	the journal of the Minerals, Metals & Materials Society · January 2018	State of the art methodologies	state of the art.	state of the art.
2019	136 ( 186)	New to Power Equipment Design Approaches with Additive Manufacturing prospects	O V Belova and M D Vulf	2017	Journal of Physics: Conference Series, Volume 891, conference 1	State of the art methodologies	methodology	Function (thermofluids), (case studies), state of the art.
2019	137	Part separation methods for assembly based design in additive manufacturing	Oh, Y., Behdad, S., Zhou, C.	2017	Proceedings of the ASME Design Engineering Technical Conference	State of the art methodologies	methodology	Function/assembly/optimization
2019	138 ( 355)	FDM for Composite Tooling DESIGN GUIDE	stratasys	-	libro	State of the art methodologies	methodology	Function (tools, case studies) / design rules and guidelines.
2019	139	Democratizing science with the aid of parametric design and additive manufacturing: Design and fabrication of a versatile and low-cost optical instrument for scattering measurement	Jose M. Nadal-Serrano1☯*, Adolfo Nadal-Serrano2☯, Marisa Lopez-Vallejo1³	2017	PLoS ONE 12(11): e0187219.	State of the art methodologies	methodology	function (electronics and optics)/innovation
2019	140 ( 170)	Design and Performance Assessment of Innovative Eco-Efficient Support Structures for Additive Manufacturing by Photopolymerization	Andre´s D´ıaz Lantada , Adria´n de Blas Romero, A´ lvaro Sa´nchez Isasi, and Diego Garrido Bellido	2017	Journal of Industrial Ecology, Volume 21, Number S1	State of the art methodologies	methodology	Function (mechanics and weight)/Optimization/innovation
2019	141 ( 165)	Design for Additive Manufacturing, to produce assembled products, by SLS	Nicolae Bâlc1,*, and Cristian Vilău1	2017	MATEC Web of Conferences 121, 04002 (2017)	State of the art methodologies	methodology	ensemble
2019	142	Redesigning a Reaction Control Thruster for Metal-Based Additive Manufacturing: A Case Study in Design for Additive Manufacturing	Nicholas A. Meisel, Matthew R. Woods, Timothy W. Simpson, Corey J. Dickman	2017	Journal of Mechanical Design, OCTOBER 2017, Vol. 139	State of the art methodologies	methodology	Function (thermofluids), (case studies)
2019	143	Power–Velocity Process Design Charts for Powder Bed Additive Manufacturing	Daniel R. Clymer, Jonathan Cagan, Jack Beuth	2017	Journal of Mechanical Design, OCTOBER 2017, Vol. 139	State of the art methodologies	methodology	Design rule (performance cards)
2019	144	Parametric Design of Scalable Mechanisms for Additive Manufacturing	Li, X., Zhao, J., He, R., Tian, Y., Wei, X.	2018	Journal of Mechanical Design, Transactions of the ASME, 140(2), art. no. 022302.	State of the art methodologies	methodology	Function (mechanisms)
2019	145	The design formulae for skew line gear wheel structures oriented to the additive manufacturing technology based on strength analysis	Lyu, Y., Chen, Y., Lin, Y.	2017	Mechanical Sciences, 8(2), pp. 369-383.	State of the art methodologies	methodology	Function (mechanics and mechanisms)/manufacturing (orientation)
2019	146 ( 185)	A method for modularity in design rules for additive manufacturing	Haeseong Jee, Paul Witherell	2017	Rapid Prototyping Journal, Vol. 23 Issue: 6, pp.1107-1118,	State of the art methodologies	methodology	ensemble
2019	147 ( 184)	A hybrid machine learning approach for additive manufacturing design feature recommendation	Xiling Yao, Seung Ki Moon, Guijun Bi,	2017	Rapid Prototyping Journal, Vol. 23 Issue: 6, pp.983-997	State of the art methodologies	methodology	Design rule (neural network program)
2019	148	Assembly Design Framework for Additive Manufacturing (AM) based on Axiomatic Design (AD)	Yosep Oh, Sara Behdad	2017	Proceedings of the 2017 Industrial and Systems Engineering Conference	State of the art methodologies	methodology	ensemble
2019	149	Rate limits of additive manufacturing by fused filament fabrication and guidelines for high-throughput system design	Jamison Goa, Scott N. Schiffres a,b, Adam G. Stevensa, A. John Harta,∗	2017	Additive Manufacturing 16 (2017) 1–11	State of the art methodologies	methodology	Design rules, comparison of industrial and desktop machines
2019	150	Security features embedded in computer aided design (CAD) solid models for additive manufacturing	Fei Chen and Gary Mac and Nikhil Gupta	2017	Materials & Design 128 (2017) 182–194	State of the art methodologies	methodology	Copyright, design to protect copyright
2019	151 ( 129)	A methodological proposal to link Design with Additive Manufacturing to environmental considerations in the Early Design Stages	Foteini Markou and Fr{\'{e}}d{\'{e}}ric Segonds and Maud Rio and Nicolas Perry	2017	Int J Interact Des Manuf	State of the art methodologies	methodology	environment
2019	152 ( 199)	Additive Manufacturing: Rethinking Battery Design	C. L. Cobb and C. C. Ho	2016	Interface magazine	State of the art methodologies	methodology	Function (electric), design rules
2019	153 ( 128)	Methods and tools for identifying and leveraging additive manufacturing design potentials	Martin Kumke and Hagen Watschke and Peter Hartogh and Ann-Kathrin Bavendiek and Thomas Vietor	2018	Int J Interact Des Manuf (2018) 12:481–493	State of the art methodologies	methodology	utilization
2019	154	Design Optimization of Plastic Injection Tooling for Additive Manufacturing	Tong Wu and Suchana A. Jahan and Yi Zhang and Jing Zhang and Hazim Elmounayri and Andres Tovar	2017	Procedia Manufacturing 10 ( 2017 ) 923 – 934	State of the art methodologies	methodology	Optimization, thermofluids, topological, lattice
2019	155	A design tool for resource-efficient fabrication of 3d-graded structura building components using additive manufacturing	F. Craveiroa, H.M. Bartoloa,b, A. Galec, J.P. Duartea,d, P.J. Bartoloa,c	2017	Automation in Construction 82 (2017) 75–83	State of the art methodologies	methodology	multimaterial optimization, building construction, energy efficiency AC
2019	156	Efficient design optimization of variable-density cellular structures for additive manufacturing: Theory and experimental validation	Lin Cheng and Pu Zhang and Emre Biyikli and Jiaxi Bai and Joshua Robbins and Albert To	2017	Rapid Prototyping Journal , 23 ( 4 ) pp. 660 - 677 .	State of the art methodologies	methodology	Function (mechanics), Multiscale optimization (topological and lattice)
2019	157	Grain-based Support Architecture Design for Additive Manufacturing	Md Ahasan Habib and Bashir Khoda	2017	Procedia Manufacturing , 10 pp. 876 - 886	State of the art methodologies	methodology	function (manufacturing), optimization (support)
2019	158 ( 353)	Design optimization and validation of high-performance heat exchangers using approximation assisted optimization and additive manufacturing	Daniel Bacellar and Vikrant Aute and Zhiwei Huang and Reinhard Radermacher	2017	Science and Technology for the Built Environment , pp. 1 - 16 .	State of the art methodologies	methodology	Function (thermal and fluids), optimization (shape)
2019	159	Design for additive manufacturing of porous structures using stochastic point-cloud: a pragmatic approach	A. M. M. Sharif Ullah	2017	Computer-Aided Design and Applications , Volume 15, Number 1 pp. 1 - 9 .	State of the art methodologies	methodology	Function (stochastic forms)
2019	160	Design for additive bio-manufacturing: From patient-specific medical devices to rationally designed meta-biomaterials	Amir Zadpoor	2017	International Journal of Molecular Sciences 18(8),1607	State of the art methodologies	methodology	Function (medical), state of the art, personalization, meta materials and bio materials.
2019	161 ( de 119)	Design methodology for porous composites with tunable thermal expansion produced by multi-material topology optimization and additive manufacturing	Takezawa, A., Kobashi, M.	2017	Composites Part B: Engineering 131, pp. 21-29	State of the art methodologies	methodology	Function (expandable thermocontrollable form), optimization (topological)
2019	162	Algorithm-driven design of fracture resistant composite materials realized through additive manufacturing	Grace X. Gu and Susan Wettermark and Markus J. Buehler	2017	Additive Manufacturing 17, pp. 47-54	State of the art methodologies	methodology	Function (mechanics), multimaterial optimization.
2019	163	User-centered design for additive manufacturing as a customization strategy	Ko, H., Enea, S., Chua, Z.Y., Moon, S.K., Otto, K.N.	2016	Proceedings of the International Conference on Progress in Additive Manufacturing , Part F129095 pp. 234 - 239 .	State of the art methodologies	methodology	Function (customization)
2019	164	Customization design knowledge representation to support additive manufacturing	Ko, H., Moon, S.K., Otto, K	2016	Proceedings of the International Conference on Progress in Additive Manufacturing , Part F129095 pp. 13 - 18 .	State of the art methodologies	methodology	Function (customization)
2019	165 ( 141)	Design for Additive Manufacturing, to produce assembled products, by SLS	Bâlc, N., Vilǎu, C.	2017	MATEC Web of Conferences , 121 , art. no. 04002	State of the art methodologies	methodology	Function (assembly)
2019	166	The design for additive manufacturing worksheet	Booth, J.W., Alperovich, J., Chawla, P., Ma, J., Reid, T.N., Ramani, K.	2017	Journal of Mechanical Design, Transactions of the ASME , 139 ( 10 ) , art. no. 100904	State of the art methodologies	methodology	design rules
2019	167	Structural and mechanical characterization of custom design cranial implant created using additive manufacturing	Moiduddin, K., Darwish, S., Al-Ahmari, A., ElWatidy, S., Mohammad, A., Ameen, W.	2017	Electronic Journal of Biotechnology 29, pp. 22-31	State of the art methodologies	methodology	Function (mechanics, customization, medicine)
2019	168 ( 123)	Cloud-based Design and Additive Manufacturing of Custom Orthoses	Shih, A., Park, D.W., Yang, Y.-Y., Chisena, R., Wu, D.	2017	Procedia CIRP 63, pp. 156-160	State of the art methodologies	methodology	function/customization/medicine/innovation
2019	169 ( 122)	Systematic Biomimetic Part Design for Additive Manufacturing	Kamps, T., Gralow, M., Schlick, G., Reinhart, G.	2017	Procedia CIRP , 65 pp. 259 - 266	State of the art methodologies	methodology	Function (resistance and weight) / optimization, innovation
2019	170 ( 140)	Design and Performance Assessment of Innovative Eco-Efficient Support Structures for Additive Manufacturing by Photopolymerization	Díaz Lantada, A., de Blas Romero, A., Sánchez Isasi, Á., Garrido Bellido, D.	2017	Journal of Industrial Ecology 21, pp. S179-S190	State of the art methodologies	methodology	Function (mechanics and weight, ecological)/Optimization/innovation
2019	171	Design and additive manufacturing of 3D phononic band gap structures based on gradient based optimization	Wormser, M., Wein, F., Stingl, M., Körner, C.	2017	Materials 10(10),1125	State of the art methodologies	methodology	function (sound), Optimization (topological and lattice)
2019	172	An approach to implement design for additive manufacturing in engineering studies	Lippert, B., Leuteritz, G., Lachmayer, R.	2017	Proceedings of the International Conference on Engineering Design, ICED, 5(DS87-5), pp. 51-60.	State of the art methodologies	methodology	education, DWX
2019	173	Design heuristics for additive manufacturing	Blösch-Paidosh, A., Shea, K.	2017	Proceedings of the International Conference on Engineering Design, ICED 5(DS87-5), pp. 91-100	State of the art methodologies	methodology	Design rule, conceptual design, state of the art (it is a research article, but it has many references)
2019	174	The need for effective design guides in additive manufacturing	Seepersad, C.C., Allison, J., Sharpe, C.	2017	Proceedings of the International Conference on Engineering Design, ICED 5(DS87-5), pp. 309-316	State of the art methodologies	methodology	design rule, conceptual design
2019	175	A methodical approach to support ideation for additive manufacturing in design education	Watschke, H., Bavendiek, A.-K., Giannakos, A., Vietor, T.	2017	Proceedings of the International Conference on Engineering Design, ICED 5(DS87-5), pp. 41-50	State of the art methodologies	methodology	design rule, conceptual design
2019	176 ( 126)	Physical Rigging for Physical Models and Posable Joint Designs Based on Additive Manufacturing Technology	Li, Y., Chen, Y.	2017	Procedia Manufacturing 11, pp. 2235-2242	State of the art methodologies	methodology	Function (mechanics)/assembly
2019	177 ( 308)	Computational design and additive manufacturing of periodic conformal metasurfaces by synthesizing topology optimization with conformal mapping	Vogiatzis, P., Ma, M., Chen, S., Gu, X.D.	2018	Computer Methods in Applied Mechanics and Engineering 328, pp. 477-497	State of the art methodologies	methodology	Functional (mechanical), optimization (topological, lattice)
2019	178 ( 133)	Which material design is possible under additive manufacturing: A fuzzy approach	Zapata, Francisco and Kosheleva, Olga and Kreinovich, Vladik	2017	2017 Joint 17th World Congress of International Fuzzy Systems Association and 9th International Conference on Soft Computing and Intelligent Systems (IFSA-SCIS)	State of the art methodologies	methodology	Material selection, optimization (fuzzy logic)
2019	179	Development of Automotive FlexBody Chassis Structure in Conceptual Design Phase using Additive Manufacturing	Kumar Dama, K., Kumar Malyala, S., Suresh Babu, V., Rao, R.N., Shaik, I.J.	2017	Materials Today: Proceedings, 4(9), pp. 9919-9923.			Functional (mechanical, automotive), conceptual design.
2019	180 ( 131)	Design for additive manufacturing of customized cast with porous shell structures	Lim, Y.-E., Kim, N.-H., Choi, H.-J., Park, K.	2017	Journal of Mechanical Science and Technology, 31(11), pp. 5477-5483.			functional (customized, medical), optimization (porous)
2019	181	Additive manufacturing for RF microwave devices: Design, performances and treatments improvement evaluation	Talom, F.T., Turpault, S.	2017	Proceedings of the 2017 19th International Conference on Electromagnetics in Advanced Applications, ICEAA 2017, art. no. 8065560, pp. 1473-1476.	State of the art methodologies	methodology	Functional (electronics), multiprocess (electroplating)
2019	182	Practical considerations in the design of monoblock TM dielectric resonator filters with additive manufacturing	Carceller, C., Gentili, F., Reichartzeder, D., Bösch, W., Schwentenwein, M	2017	Proceedings of the 2017 19th International Conference on Electromagnetics in Advanced Applications, ICEAA 2017, art. no. 8065251, pp. 364-367	State of the art methodologies	methodology	Functional (electronics), multiprocessing
2019	183	Design considerations for additive manufacturing of feed channel spacers for spiral wound membrane modules	An, J., Tan, W.S., Chua, C.K., Chong, T.H., Fane, A.G.	2017	Challenges for Technology Innovation: An Agenda for the Future - Proceedings of the International Conference on Sustainable Smart Manufacturing, S2M 2016, pp. 211-216.	State of the art methodologies	methodology	Functional (fluids)
2019	184 ( 147)	A hybrid machine learning approach for additive manufacturing design feature recommendation	Yao, X., Moon, S.K., Bi, G.	2017	Rapid Prototyping Journal, 23(6), pp. 983-997.			optimization (machine learning)
2019	185 ( 146)	A method for modularity in design rules for additive manufacturing	Jee, H., Witherell, P.	2017	Rapid Prototyping Journal, 23(6), pp. 1107-1118.			Function (assembly)
2019	186 ( 136)	New to Power Equipment Design Approaches with Additive Manufacturing prospects	Belova, O.V., Vulf, M.D.	2017	Journal of Physics: Conference Series, 891(1), art. no. 012211.			turbomachinery, thermofluids
2019	187	Study, design and prototyping of arm splint with additive manufacturing process	Blaya, F., D'amato, R., Pedro, P.S., (...), Lopez-Silva, J., Lagándara, J.G.	2017	ACM International Conference Proceeding Series, Part F132203, art. no. 57.	State of the art methodologies	methodology	function (medical)
2019	188	Low weight additive manufacturing FBG accelerometer: Design, characterization and testing	Gutiérrez, N., Galvín, P., Lasagni, F	2018	Measurement: Journal of the International Measurement Confederation, 117, pp. 295-303.	State of the art methodologies	methodology	Function (electronics, instrumentation)
2019	189	Mesoscale design of heterogeneous material systems in multi-material additive manufacturing	Garcia, D., Jones, M.E., Zhu, Y., Yu, H.Z.	2018	Journal of Materials Research, 33(1), pp. 58-67.	State of the art methodologies	methodology	Optimization (multiscale, multimaterial)
2019	190	The scope of additive manufacturing in cryogenics, component design, and applications	Stautner, W., Vanapalli, S., Weiss, K.-P., (...), Budesheim, E., Ricci, J.	2017	IOP Conference Series: Materials Science and Engineering, 278(1), art. no. 012134	State of the art methodologies	methodology	termofluidos, estado del arte, criogenia translated to English is thermofluids, state of the art, cryogenics.
2019	191	Additive Design and Manufacturing of Jet Engine Parts	Han, P.	2017	Engineering, 3(5), pp. 648-652.	State of the art methodologies	methodology	fluid terms, design rules
2019	192	Design and additive manufacturing of lower limb prosthetic socket	Vitali, A., Regazzoni, D., Rizzi, C., Colombo, G	2017	ASME International Mechanical Engineering Congress and Exposition, Proceedings (IMECE), 11.	State of the art methodologies	methodology	function (doctor)
2019	193	Design of novel materials for additive manufacturing - Isotropic microstructure and high defect tolerance	Günther, J., Brenne, F., Droste, M., (...), Biermann, H., Niendorf, T.	2018	Scientific Reports, 8(1), art. no. 1298.	State of the art methodologies	methodology	MECHANICS AND TOLERANCES
2019	194	Design and fabrication of integrated micro/macrostructure for 3D functional gradient systems based on additive manufacturing	Yin, M., Xie, L., Jiang, W., Yin, G	2018	Optics Communications, 414, pp. 195-201.	State of the art methodologies	methodology	electronics, multiscale optimization
2019	195 ( 307)	Design of graded lattice structure with optimized mesostructures for additive manufacturing	Wang, Y., Zhang, L., Daynes, S., (...), Feih, S., Wang, M.Y.	2018	Materials and Design, 142, pp. 114-123.	State of the art methodologies	methodology	optimization (multiple scale, topological, lattice)
2019	196	Design and additive manufacturing of multi-Permeability magnetic cores	Liu, L., Ding, C., Lu, S., (...), Ngo, K.D.T., Lu, G.-Q.	2017	2017 IEEE Energy Conversion Congress and Exposition, ECCE 2017, 2017-January, art. no. 8095878, pp. 881-886.	State of the art methodologies	methodology	Sure, I can help you with that. Here is the translation of electrica into English: electric I have removed the quotation and double quotation marks from the translated value as requested.
2019	197	Design approach for additive manufacturing employing Constructal Theory for point-to-circle flows	Kamps, T., Biedermann, M., Seidel, C., Reinhart, G.	2018	Additive Manufacturing, 20, pp. 111-118.	State of the art methodologies	methodology	Sure, I can help you with that. Here is the translation of electrica into English: electric I have removed the quotation and double quotation marks from the translated value as requested.
2019	198 (es mas para otros)	Mechatronic design for an extrusion-based additive manufacturing machine	Giberti, H., Sbaglia, L., Silvestri, M.	2017	Machines, 5(4), art. no. 29.	State of the art methodologies	another	mechatronics
2019	199 ( 152)	Manufactured chemistry: Rethinking unit operation design in the age of additive manufacturing	Stark, A.K.	2018	AIChE Journal. Article in Press	State of the art methodologies
2019	200	Lifecycle design and management of additive manufacturing technologies	Müller, J.R., Panarotto, M., Malmqvist, J., Isaksson, O.	2018	Procedia Manufacturing, 19, pp. 135-142.	State of the art methodologies	methodology	management, life cycle
2019	201	Aiming for modeling-assisted tailored designs for additive manufacturing	Gunasegaram, D.R., Murphy, A.B., Cummins, S.J., (...), Nguyen, V., Feng, Y.	2017	Minerals, Metals and Materials Series, Part F6, pp. 91-102.	State of the art methodologies	methodology	Function (mechanics), optimization (mesoscale: homogeneous (lattice))
2019	202 (en japones)	Design and development of intervertebral fusion cage with novel concept by metal powder-based additive manufacturing	Takahashi, H., Nakashima, Y., Ito, M., Ishimoto, T., Nakano, T.	2018	Funtai Oyobi Fummatsu Yakin/Journal of the Japan Society of Powder and Powder Metallurgy, 65(2), pp. 132-134.	State of the art methodologies	methodology
2019	203	A Knowledge Management System to Support Design for Additive Manufacturing Using Bayesian Networks	Wang, Y., Blache, R., Zheng, P., Xu, X.	2018	Journal of Mechanical Design, Transactions of the ASME, 140(5), art. no. 051701.	State of the art methodologies	methodology	Database, process and material selection, state of the art (it is a research article but has many references), design rules (fused deposition)
2019	204	Investigation of design for additive manufacturing in professional design practice	Pradel, P., Zhu, Z., Bibb, R., Moultrie, J.	2018	Journal of Engineering Design, pp. 1-36.	State of the art methodologies	methodology	DFAM, design rules, STATE OF THE ART (research article but with many references)
2019	205	Toward integrated design of additive manufacturing through a process development model and multi-objective optimization	Asadollahi-Yazdi, E., Gardan, J., Lafon, P.	2018	International Journal of Advanced Manufacturing Technology, pp. 1-20.	State of the art methodologies	methodology	Optimization (multi-objective), STATE OF THE ART (research article but with many references)
2019	206	Design of an Orthopedic Product by Using Additive Manufacturing Technology: The Arm Splint	Blaya, F., Pedro, P.S., Silva, J.L., (...), Heras, E.S., Juanes, J.A.	2018	Journal of Medical Systems, 42(3), art. no. 54.	State of the art methodologies	methodology	medical, personalization
2019	207	Design optimization and additive manufacturing of nodes in gridshell structures	Seifi, H., Rezaee Javan, A., Xu, S., Zhao, Y., Xie, Y.M.	2018	Engineering Structures, 160, pp. 161-170.	State of the art methodologies	methodology	optimization, thermofluids, topological
2019	208	Dynamic supply chain design and operations plan for connected smart factories with additive manufacturing	Do Chung, B., Kim, S.I., Lee, J.S.	2018	Applied Sciences (Switzerland), 8(4), art. no. 583.	State of the art methodologies	methodology	Supply chain
2019	209	Topology optimization as an innovative design method for additive manufacturing	Nguyen, D.S., Vignat, F.	2018	IEEE International Conference on Industrial Engineering and Engineering Management, 2017-December, pp. 304-308.	State of the art methodologies	methodology	optimization (topological)
2019	210	Design and manufacturing of high-performance prostheses with additive manufacturing and fiber-reinforced polymers	Türk, D.-A., Einarsson, H., Lecomte, C., Meboldt, M.	2018	Production Engineering, pp. 1-11.	State of the art methodologies	methodology	medical, mechanics, customization
2019	211	A Realization Method for Transforming a Topology Optimization Design into Additive Manufacturing Structures	Liu, S., Li, Q., Liu, J., Chen, W., Zhang, Y.	2018	Engineering.	State of the art methodologies	methodology	Optimization (topological)
2019	212	Novel topological design of 3D Kagome structure for additive manufacturing	Wang, R., Shang, J., Li, X., Wang, Z., Luo, Z.	2018	Rapid Prototyping Journal, 24(2), pp. 261-269.	State of the art methodologies	methodology	Optimization (topological, lattice)
2019	213	A Study of Design Fixation Related to Additive Manufacturing	Abdelall, E.S., Frank, M.C., Stone, R.T.	2018	Journal of Mechanical Design, Transactions of the ASME, 140(4), art. no. 041702.	State of the art methodologies	methodology	ensemble, state of the art (research article but many references) Please note that the translation may vary depending on the context and specific meaning of the words.
2019	214	A multi-material part design framework in additive manufacturing	Yao, X., Moon, S.K., Bi, G., Wei, J.	2018	International Journal of Advanced Manufacturing Technology, pp. 1-9.	State of the art methodologies	methodology	multimaterial
2019	215	Traditional or Additive Manufacturing? Assessing Component Design Options through Lifecycle Cost Analysis	Westerweel, B., Basten, R.J.I., van Houtum, G.-J.	2018	European Journal of Operational Research.	State of the art methodologies	methodology	cost, life cycle
2019	216	Part decomposition and assembly-based (Re) design for additive manufacturing: A review	Oh, Y., Zhou, C., Behdad, S.	2018	Additive Manufacturing, 22, pp. 230-242.	State of the art methodologies	methodology	ensemble, state of the art
2019	217	The Role of re-design for Additive Manufacturing on the Process Environmental Performance	Priarone, P.C., Ingarao, G., Lunetto, V., Di Lorenzo, R., Settineri, L.	2018	Procedia CIRP, 69, pp. 124-129.	State of the art methodologies	methodology	environment, surroundings
2019	218	Topology optimization and laser additive manufacturing in design process of efficiency lightweight aerospace parts	Fetisov, K.V., Maksimov, P.V.	2018	Journal of Physics: Conference Series, 1015(5), art. no. 052006, p. 8DUMMY.	State of the art methodologies	methodology	topological optimization, aerospace mechanics
2019	219	Understanding the scope for a product design education discourse on additive manufacturing	Loy, J.	2018	Archives of Design Research, 31(2), pp. 15-23.	State of the art methodologies	methodology	DWAM, state of the art
2019	220	Additive manufacturing-driven mold design for castings	Kang, J., Shangguan, H., Deng, C., (...), Zhang, X., Huang, T.	2018	Additive Manufacturing, 22, pp. 472-478.	State of the art methodologies	methodology	Design of Casting Molds, Thermofluids
2019	221	A framework for mapping design for additive manufacturing knowledge for industrial and product design	Pradel, P., Zhu, Z., Bibb, R., Moultrie, J.	2018	Journal of Engineering Design, pp. 1-36.	State of the art methodologies	methodology	DFAM, DFX mod AM, state of the art (it is a research article but has many references)
2019	222	Structural topology optimization for generative design of personalized aneurysm implants: Design, additive manufacturing, and experimental validation	Jiang, L., Chen, S., Sadasivan, C., Jiao, X.	2017	2017 IEEE Healthcare Innovations and Point of Care Technologies, HI-POCT 2017, 2017-December, pp. 9-13.	State of the art methodologies	methodology	Topological optimization, medical
2019	223	Numerical comparison of lattice unit cell designs for medical implants by additive manufacturing	du Plessis, A., Yadroitsava, I., Yadroitsev, I., le Roux, S., Blaine, D.	2018	Virtual and Physical Prototyping, pp. 1-16.	State of the art methodologies	methodology	Optimization (lattice), medical
2019	224	Breathable tissue engineering scaffolds: An efficient design-optimization by additive manufacturing	Touri, M., Moztarzadeh, F., Osman, N.A.A., Dehghan, M.M., Mozafari, M.	2018	Materials Today: Proceedings, 5(7), pp. 15813-15820.	State of the art methodologies	methodology	Optimization (lattice), medical
2019	225	Role of CT and MRI in the design and development of orthopaedic model using additive manufacturing	Haleem, A., Javaid, M.	2018	Journal of Clinical Orthopaedics and Trauma.	State of the art methodologies	methodology	medical, state of the art
2019	226	Optimal design and modeling of gyroid-based functionally graded cellular structures for additive manufacturing	Li, D., Liao, W., Dai, N., (...), Tang, Y., Xie, Y.M.	2018	CAD Computer Aided Design, 104, pp. 87-99.	State of the art methodologies	methodology	optimization (lattice, topological), mechanics
2019	227	Invited review article: Metal-additive manufacturing—Modeling strategies for application-optimized designs	Bandyopadhyay, A., Traxel, K.D.	2018	Additive Manufacturing, 22, pp. 758-774.	State of the art methodologies	methodology	Optimization (topological, lattice), multimaterial function (mechanics), state of the art.
2019	228	Design By Additive Manufacturing: an application in aeronautics and defence	Segonds, F.	2018	Virtual and Physical Prototyping, pp. 1-9.	State of the art methodologies	methodology	mechanics, aerospace, innovation
2019	229	Reliability centered additive manufacturing computational design framework	Harris, P., Laskowski, B., Reutzel, E., Earthman, J.C., Hess, A.J.	2018	IEEE Aerospace Conference Proceedings, 2018-March, pp. 1-10.	State of the art methodologies	methodology	aerospace, system or database
2019	230	Application of additive manufacturing in design & manufacturing engineering education	Keaveney, S.G., Dowling, D.P.	2018	2018 2nd International Symposium on Small-Scale Intelligent Manufacturing Systems, SIMS 2018, 2018-January, pp. 1-6.			DWAM, educational
2019	231	Design optimization of heat sink using additive manufacturing	Tateishi, Y., Parque, V., Miyashita, T., (...), Kato, R., Ikeda, Y.	2017	2017 IEEE CPMT Symposium Japan, ICSJ 2017, 2017-January, pp. 91-94.	State of the art methodologies	methodology	termofluids
2019	232	An ergonomic customized-tool handle design for precision tools using additive manufacturing: A case study	González, A.G., Salgado, D.R., Moruno, L.G., Ríos, A.S.	2018	Applied Sciences (Switzerland), 8(7), art. no. 1200.	State of the art methodologies	methodology	customization, tooling
2019	233	A semi-automated virtual workflow solution for the design and production of intraoral molding plates using additive manufacturing: the first clinical results of a pilot-study	Grill, F.D., Ritschl, L.M., Bauer, F.X., (...), Wolff, K.-D., Loeffelbein, D.J.	2018	Scientific Reports, 8(1), art. no. 11845.	State of the art methodologies	methodology	medical, personalization
2019	234	A Conceptual Design and Modeling Framework for Integrated Additive Manufacturing	Mokhtarian, H., Coatanéa, E., Paris, H., (...), Vihinen, J., Ellman, A.	2018	Journal of Mechanical Design, Transactions of the ASME, 140(8), art. no. 081101.	State of the art methodologies	methodology	Conceptual design, FDM
2019	235	Additive manufacturing for industrial benchmarking: An application to vehicle's under-hood design	Naddeo, A., Cappetti, N.	2018	ARPN Journal of Engineering and Applied Sciences, 13(14), pp. 4292-4299.	State of the art methodologies	methodology	Benchmarking (conceptual design)
2019	236	Feature-Based Methodology for Design of Geometric Benchmark Test Artifacts for Additive Manufacturing Processes	Rupal, B.S., Ahmad, R., Qureshi, A.J.	2018	Procedia CIRP, 70, pp. 84-89.	State of the art methodologies	methodology	DFAM, tolerances, assembly, adjustments
2019	237 ( 334)	Integrated design-oriented framework for Resource Selection in Additive Manufacturing	Uz Zaman, U.K., Rivette, M., Siadat, A., Baqai, A.A.	2018	Procedia CIRP, 70, pp. 96-101.	State of the art methodologies	methodology	DFAM, material selection and processes, cost, function, sustainability
2019	238	Planning, Evaluation and Optimization of Product Design and Manufacturing Technology Chains for New Product and Production Technologies on the Example of Additive Manufacturing	Jacob, A., Windhuber, K., Ranke, D., Lanza, G.	2018	Procedia CIRP, 70, pp. 108-113.	State of the art methodologies	methodology	DFAM, material selection and processes (hybrid)
2019	239	Design of a scaffold parameter selection system with additive manufacturing for a biomedical cell culture	Rabionet, M., Polonio, E., Guerra, A.J., (...), Puig, T., Ciurana, J.	2018	Materials, 11(8), art. no. 1427.	State of the art methodologies	methodology	medicine, cell growth structure printing, FDM
2019	240	Design & manufacture of a high-performance bicycle crank by Additive Manufacturing	McEwen, I., Cooper, D.E., Warnett, J., (...), Williams, M.A., Gibbons, G.J.	2018	Applied Sciences (Switzerland), 8(8), art. no. 1360.	State of the art methodologies	methodology	mechanics, weight
2019	241	Structural design and mechanical response of gradient porous Ti-6Al-4V fabricated by electron beam additive manufacturing	Wu, Y.C., Kuo, C.N., Shie, M.Y., (...), Chen, S.Y., Huang, J.C.	2018	Materials and Design, 158, pp. 256-265.	State of the art methodologies	methodology	mechanics
2019	242	Additive Manufacturing as a Method to Design and Optimize Bioinspired Structures	Velasco-Hogan, A., Xu, J., Meyers, M.A.	2018	Advanced Materials.	State of the art methodologies	methodology	State of the art, multiscale, lattice
2019	243	Bioinspired hierarchical composite design using machine learning: Simulation, additive manufacturing, and experiment	Gu, G.X., Chen, C.-T., Richmond, D.J., Buehler, M.J.	2018	Materials Horizons, 5(5), pp. 939-945.	State of the art methodologies	methodology	multimaterial, latice, machine learnig
2019	244	Additive Manufacturing Handbook.	Badiru, A. (Ed.), Valencia, V. (Ed.), Liu, D. (Ed.).	2017	Boca Raton: CRC Press,	State of the art methodologies	manufacturing Please note that I have removed the quotation and double quotation marks from the translated value.	state of the art.
2019	245	Additive Manufacturing with Bioinspired Sustainable Product Design: A Conceptual Model	Zhang, H., Nagel, J.K., Al-Qas, A., Gibbons, E., Lee, J.J.-Y.	2018	Procedia Manufacturing, 26, pp. 880-891.	State of the art methodologies	methodology	multiescala, latice, conceptual design
2019	246	Design Right Once for Additive Manufacturing	Tsakiris, A., Salpistis, C., Mihailidis, A.	2018	MATEC Web of Conferences, 188, art.	State of the art methodologies	methodology	innovation, mechanics, topological optimization, conceptual design
2019	247	Manufacturing elements to support design for additive manufacturing	Rosen, D.W.	2018	Proceedings of the International Conference on Progress in Additive Manufacturing, 2018-May, pp. 309-314.	State of the art methodologies	methodology	DFAM, database
2019	248	Linking part design to process planning by design for additive manufacturing ontology	Kim, S., Rosen, D.W., Witherell, P., Ko, H.	2018	Proceedings of the International Conference on Progress in Additive Manufacturing, 2018-May, pp. 303-308.	State of the art methodologies	methodology	DFAM, database
2019	249	Fly without borders with additive manufacturing: A microscale tilt-rotor tricopter design	Lee, Y.W., Mehndiratta, M., Kayacan, E.	2018	Proceedings of the International Conference on Progress in Additive Manufacturing, 2018-May, pp. 256-261.	State of the art methodologies	methodology	DFAM
2019	250	Integrating parametric design with robotic additive manufacturing for 3D clay printing: An experimental study	Kontovourkis, O., Tryfonos, G.	2018	ISARC 2018 - 35th International Symposium on Automation and Robotics in Construction and International AEC/FM Hackathon: The Future of Building Things.	State of the art methodologies	manufacturing Please note that I have removed the quotation and double quotation marks from the translated value.	empirical, design rule, construction
2019	251	A design framework for additive manufacturing through the synergistic use of axiomatic design theory and TRIZ	Renjith, S.C., Okudan Kremer, G.E., Park, K.	2018	IISE Annual Conference and Expo 2018, pp. 551-556.	State of the art methodologies	methodology	Modified DFX for AM
2019	252	Design and strengthening mechanisms in hierarchical architected materials processed using additive manufacturing	Sha, Y., Jiani, L., Haoyu, C., Ritchie, R.O., Jun, X.	2018	International Journal of Mechanical Sciences, 149, pp. 150-163.	State of the art methodologies	methodology	lattice, mechanics
2019	253	Design, finite element analysis (FEA), and fabrication of custom titanium alloy cranial implant using electron beam melting additive manufacturing	Ameen, W., Al-Ahmari, A., Mohammed, M.K., (...), Umer, U., Moiduddin, K.	2018	Advances in Production Engineering And Management, 13(3), pp. 267-278.	State of the art methodologies	methodology	medical, mechanical
2019	254	Design of a 4 degrees of freedom decoupled monolithic compliant alignment mechanism for additive manufacturing	Van Hoek, N., Van Der Wijk, V., Herder, J., Oosterhuis, G.	2018	European Society for Precision Engineering and Nanotechnology, Conference Proceedings - 18th International Conference and Exhibition, EUSPEN 2018, pp. 297-298.	State of the art methodologies	methodology	mechanism, assembly
2019	255	A new design for an extensive benchmarking of additive manufacturing machines	Moshiri, M., Tosello, G., Mohanty, S.	2018	European Society for Precision Engineering and Nanotechnology, Conference Proceedings - 18th International Conference and Exhibition, EUSPEN 2018, pp. 261-262.	State of the art methodologies	methodology	benchmarking
2019	256	Trivariate spline representations for computer aided design and additive manufacturing	Dokken, T., Skytt, V., Barrowclough, O.	2018	Computers and Mathematics with Applications.	State of the art methodologies	methodology
2019	257	Evaluating design heuristics for additive manufacturing as an explorative workshop method	Lindwall, A., Törlind, P.	2018	Proceedings of International Design Conference, DESIGN, 3, pp. 1221-1232.	State of the art methodologies	methodology	Design rules, heuristics, state of the art
2019	258	Impact on design when introducing additive manufacturing in space applications	Borgue, O., Panarotto, M., Isaksson, O.	2018	Proceedings of International Design Conference, DESIGN, 3, pp. 997-1008.	State of the art methodologies	methodology	Advantages/limitations, function (mechanics, weight), state of the art.
2019	259	Using the potentials of additive manufacturing by a systematic linkage of the manufacturing process to product design	Würtenberger, J., Reichwein, J., Kirchner, E.	2018	Proceedings of International Design Conference, DESIGN, 3, pp. 1465-1476.	State of the art methodologies	methodology	advantages
2019	260	Additive manufacturing of elastomeric foam with cell unit design for broadening compressive stress plateau	Zhu, X., Chen, Y., Liu, Y., (...), Liu, T., Yang, J.	2018	Rapid Prototyping Journal.	State of the art methodologies	methodology	lattice, mechanics
2019	261	Re-design and re-manufacturing of discontinued spare parts implementing additive manufacturing in the military field	Montero, J., Paetzold, K., Bleckmann, M., Holtmannspoetter, J.	2018	Proceedings of International Design Conference, DESIGN, 3, pp. 1269-1278.	State of the art methodologies	methodology	redesign and remanufacturing
2019	262	Design for additive manufacturing: Mapping of product functions	Valjak, F., Bojčetić, N., Lukić, M.	2018	Proceedings of International Design Conference, DESIGN, 3, pp. 1369-1380.	State of the art methodologies	methodology	ontological, conceptual design, advantages
2019	263	Optimization design of nonuniform cellular structures for additive manufacturing	Han, Y., Lu, W.F.	2018	ASME 2018 13th International Manufacturing Science and Engineering Conference, MSEC 2018, 1.	State of the art methodologies	methodology	lattice, mechanics
2019	264	Design of high-manganese steels for additive manufacturing applications with energy-absorption functionality	Kies, F., Köhnen, P., Wilms, M.B., (...), Schleifenbaum, J.H., Haase, C.	2018	Materials and Design, 160, pp. 1250-1264.	State of the art methodologies	methodology	mechanics, lattice
2019	265	Powder bed fusion metrology for additive manufacturing design guidance	Allison, J., Sharpe, C., Seepersad, C.C.	2019	Additive Manufacturing, 25, pp. 239-251.	State of the art methodologies	methodology	Design rule, tolerance
2019	266 ( 237)	Digital design and nonlinear simulation for additive manufacturing	Weeger, O., Boddeti, N., Yeung, S.-K., Kaijima, S., Dunn, M.L.	2019	Additive Manufacturing, 25, pp. 39-49.	State of the art methodologies	methodology	lattice, mechanics
2019	267	Study on Nature-inspired Fractal Design-based Flexible Counter Electrodes for Dye-Sensitized Solar Cells Fabricated using Additive Manufacturing	James, S., Contractor, R.	2018	Scientific Reports, 8(1), art. no. 17032.	State of the art methodologies	methodology	Translated data: lattice, electric, electronics, multiprocessing
2019	268	Computational design of nanostructural color for additive manufacturing	Auzinger, T., Heidrich, W., Bickel, B.	2018	ACM Transactions on Graphics, 37(4), art. no. 159.	State of the art methodologies	methodology	optics, multiscale, optimization
2019	269	Design and experimental testing of a Mini Channel Heat Exchanger made in Additive Manufacturing	Cardone, M., Gargiulo, B.	2018	Energy Procedia, 148, pp. 932-939.	State of the art methodologies	methodology	termofluids
2019	270	Design for additive manufacturing inspired by TRIZ	Gross, J., Park, K., Okudan Kremer, G.E.	2018	Proceedings of the ASME Design Engineering Technical Conference, 4.	State of the art methodologies	methodology	Modified DFX for AM
2019	271	Manufacturability constraint formulation for design under hybrid additive-subtractive manufacturing	Patterson, A.E., Allison, J.T.	2018	Proceedings of the ASME Design Engineering Technical Conference, 4.	State of the art methodologies	methodology	DFAM with subtractive (multiprocesses)
2019	272	A novel approaches to components design additive manufacturing process	Orlov, A.V., Masaylo, D.V., Sufiiarov, V.S., (...), Polozov, I.A., Popovich, A.A.	2018	IOP Conference Series: Earth and Environmental Science, 194(2), art. no. 022026.	State of the art methodologies	methodology	topological optimization, mechanics
2019	273	Design for additive manufacturing of conformal cooling channels using thermal-fluid topology optimization and application in injection molds	Wu, T., Tovar, A.	2018	Proceedings of the ASME Design Engineering Technical Conference, 2B-2018.	State of the art methodologies	methodology	termofluids, optimization (topological)
2019	274	Function modelling and constraints replacement to support design for additive manufacturing of satellite components	Borgue, O., Muller, J., Panarotto, M., Isaksson, O.	2018	Proceedings of NordDesign: Design in the Era of Digitalization, NordDesign 2018.	State of the art methodologies	methodology	Advantages and restrictions
2019	275	Integrating additive manufacturing and repair strategies of aeroengine components in the computational multidisciplinary engineering design process	Handawi, K.A., Lawand, L., Andersson, P., (...), Isaksson, O., Kokkolaras, M.	2018	Proceedings of NordDesign: Design in the Era of Digitalization, NordDesign 2018.	State of the art methodologies	methodology	Maintenance, mechanical resistance, life cycle, costs
2019	276	Design for qualification: A process for developing additive manufacturing components for critical systems	Dordlofva, C., Törlind, P.	2018	Proceedings of NordDesign: Design in the Era of Digitalization, NordDesign 2018.	State of the art methodologies	methodology	DFX modified for AM, DFQ
2019	277	Design for additive manufacturing (DfAM) methodologies: a proposal to foster the design of microwave waveguide components	François, M., Segonds, F., Rivette, M., Turpault, S., Peyre, P.	2018	Virtual and Physical Prototyping.	State of the art methodologies	methodology	DFAM
2019	278	Enabling graduate students to design for additive manufacturing through teaching and experience transfer	Ferchow, J., Klahn, C., Meboldt, M.	2018	Proceedings of the 20th International Conference on Engineering and Product Design Education, E and PDE 2018.	State of the art methodologies	methodology	DWAM, educational
2019	279	Joint Asymmetric Tolerance Design and Manufacturing Decision-Making for Additive Manufacturing Processes	Haghighi, A., Li, L.	2018	IEEE Transactions on Automation Science and Engineering.	State of the art methodologies	methodology	ensemble, tolerance
2019	280 ( 316)	Creativity and productivity in product design for additive manufacturing: Mechanisms and platform outcomes of remixing	Friesike, S., Flath, C.M., Wirth, M., Thiesse, F.	2018	Journal of Operations Management.	State of the art methodologies	methodology	innovation, creativity, virtual design
2019	281	Integrating additive manufacturing in the design of aerospace components	Stolt, R., Heikkinen, T., Elgh, F.	2018	Advances in Transdisciplinary Engineering, 7, pp. 145-154.	State of the art methodologies	methodology	mechanics, weight
2019	282	Thermal design, optimization and additive manufacturing of ceramic regular structures to maximize the radiative heat transfer	Pelanconi, M., Barbato, M., Zavattoni, S., Vignoles, G.L., Ortona, A.	2019	Materials and Design, 163, art. no. 107539.	State of the art methodologies	methodology	fluid term, lattice
2019	283	A novel optimization design method of additive manufacturing oriented porous structures and experimental validation	Zhao, J., Zhang, M., Zhu, Y., (...), Wang, L., Hu, J.	2019	Materials and Design, 163, art. no. 107550.	State of the art methodologies	methodology	Optimization (topological), function (mechanics, weight)
2019	284	Advanced design applied to an original multi-purpose ventilator achievable by additive manufacturing	Frizziero, L., Donnici, G., Dhaimini, K., Liverani, A., Caligiana, G.	2018	Applied Sciences (Switzerland), 8(12), art. no. 2635.	State of the art methodologies	methodology	Modified dfx for AM, optimization (multipurpose), thermofluids
2019	285	Comparison of a transtibial socket design obtained by additive manufacturing and reverse engineering and a traditional model	Salamanca Jaimes, E., Prada Botiá, G.C., Rodrigues, P.H., (...), Campos Rubio, J.C., Volpini Lana, M.R.	2018	Journal of Physics: Conference Series, 1126(1), art. no. 012016.	State of the art methodologies	methodology	medicine
2019	286	Design and manufacture of orthopedic corset using 3D digitization and additive manufacturing	Molnár, I., Morovič, L.	2018	IOP Conference Series: Materials Science and Engineering, 448(1), art. no. 012058.	State of the art methodologies	methodology	medicine
2019	287	Design and prototyping by additive manufacturing of a functional splint for rehabilitation of Achilles tendon intrasubstance rupture	Haro, F.B., Lopez-Silva, J., Pedro, P.S., (...), Pedro, A.B.S., D'Amato, R.	2018	ACM International Conference Proceeding Series, pp. 433-439.	State of the art methodologies	methodology	medicine
2019	288	TEAM: A tool for eco additive manufacturing to optimize environmental impact in early design stages	Floriane, L., Enrico, B., Frédéric, S., (...), Gianluca, D.A., Paolo, C.	2018	IFIP Advances in Information and Communication Technology, 540, pp. 736-746.	State of the art methodologies	methodology	environment
2019	289	Design, development and characterization of linear, soft actuators via additive manufacturing	Costas, A., Davis, D.E., Niu, Y., (...), Garcia, J., Newell, B.	2018	ASME 2018 Conference on Smart Materials, Adaptive Structures and Intelligent Systems, SMASIS 2018, 1.	State of the art methodologies	methodology	automation, robotics, multiprocessing
2019	290	Multi-view feature modeling for design-for-additive manufacturing	Li, L., Liu, J., Ma, Y., Ahmad, R., Qureshi, A.	2019	Advanced Engineering Informatics, 39, pp. 144-156.	State of the art methodologies	methodology	Optimization (multi-objective, topological, lattice)
2019	291	Hydraulic manifold design via additive manufacturing optimized with CFD and fluid-structure interaction simulations	Alshare, A.A., Calzone, F., Muzzupappa, M.	2018	Rapid Prototyping Journal.	State of the art methodologies	methodology	termofluids
2019	292	Design for additive manufacturing: Benefits, trends and challenges	Durakovic, B.	2018	Periodicals of Engineering and Natural Sciences, 6(2), pp. 179-191.	State of the art methodologies	methodology	state of the art.
2019	293	Design of Air Cooling Housing for Image Sensors Using Additive Manufacturing Technology	Kim, C., Hillstrom, A., Coronel, J., (...), Espalin, D., Wicker, R.	2018	2018 International Conference on Information and Communication Technology Robotics, ICT-ROBOT 2018, art. no. 8549891.	State of the art methodologies	methodology	termofluids
2019	294	Laser powder bed fusion (L-PBF) additive manufacturing: On the correlation between design choices and process sustainability	Priarone, P.C., Lunetto, V., Atzeni, E., Salmi, A.	2018	Procedia CIRP, 78, pp. 85-90.	State of the art methodologies	methodology	sustainability, environment
2019	295	Homogenization driven design of lightweight structures for additive manufacturing	Savio, G., Curtarello, A., Rosso, S., Meneghello, R., Concheri, G.	2019	International Journal on Interactive Design and Manufacturing.	State of the art methodologies	methodology	optimization (lattice), mechanics, weight
2019	296	Design Considerations of Heat Guides Fabricated Using Additive Manufacturing for Enhanced Heat Transfer in Electrical Machines	Wrobel, R., Hussein, A.	2018	2018 IEEE Energy Conversion Congress and Exposition, ECCE 2018, art. no. 8557559, pp. 6506-6513.	State of the art methodologies	methodology	termofluids
2019	297	Towards design for precision additive manufacturing: A simplified approach for detecting heat accumulation	Ranjan, R., Ayas, C., Langelaar, M., Van Keulen, F.	2018	Proceedings - 2018 ASPE and euspen Summer Topical Meeting: Advancing Precision in Additive Manufacturing, pp. 29-34.	State of the art methodologies	methodology	Restrictions, optimization, tolerances
2019	298	Design of a multi-sensor in-situ inspection system for additive manufacturing	Dickins, A., Widjanarko, T., Lawes, S., Stravroulakis, P., Leach, R.	2018	Proceedings - 2018 ASPE and euspen Summer Topical Meeting: Advancing Precision in Additive Manufacturing, pp. 248-252.	State of the art methodologies	others	electronica
2019	299	The applicability of the 40 TRIZ principles in design for additive manufacturing	Kretzschmar, N., Chekurov, S.	2018	Annals of DAAAM and Proceedings of the International DAAAM Symposium, 29(1), pp. 888-893.	State of the art methodologies	methodology	Modified DFX for AM
2019	300	A Novel Approach to Optimize the Design of Parts for Additive Manufacturing	Silva, F.J.G., Campilho, R.D.S.G., Gouveia, R.M., Pinto, G., Baptista, A.	2018	Procedia Manufacturing, 17, pp. 53-61.	State of the art methodologies	methodology	Optimization
2019	301	Design of metallic bone by additive manufacturing	Alabort, E., Barba, D., Reed, R.C.	2019	Scripta Materialia, 164, pp. 110-114.	State of the art methodologies	methodology	Mechanics, medicine, optimization (topological, lattice)
2019	302	Design for Six Sigma (DFSS) for additive manufacturing applied to an innovative multifunctional fan	Liverani, A., Caligiana, G., Frizziero, L., (...), Donnici, G., Dhaimini, K.	2019	International Journal on Interactive Design and Manufacturing.	State of the art methodologies	methodology	Modified DFX for AM
2019	303	Understanding the role of additive manufacturing knowledge in stimulating design innovation for novice designers	Yang, S., Page, T., Zhao, Y.F.	2018	Proceedings of the ASME Design Engineering Technical Conference 4.	State of the art methodologies	methodology	DWAM, educational
2019	304	Overhang constraint for topology optimization of self-supported compliant mechanisms considering additive manufacturing	Garaigordobil, A., Ansola, R., Veguería, E., Fernandez, I.	2019	CAD Computer Aided Design 109, pp. 33-48	State of the art methodologies	methodology	Topology optimization, constraints
2019	305	Process planning for combined additive and subtractive manufacturing technologies in a remanufacturing context	Le, V.T., Paris, H., Mandil, G.	2017	Journal of Manufacturing Systems 44, pp. 243-254	State of the art methodologies	methodology	planning process, manufacturing multiprocess
2019	306	Deposition path planning-integrated structural topology optimization for 3D additive manufacturing subject to self-support constraint	Liu, J., To, A.C.	2017	CAD Computer Aided Design 91, pp. 27-45	State of the art methodologies	methodology	Topology optimization, constraints
2019	307 ( 195)	Design of graded lattice structure with optimized mesostructures for additive manufacturing	Wang, Y., Zhang, L., Daynes, S., (...), Feih, S., Wang, M.Y.	2018	Materials and Design 142, pp. 114-123			Optimization (multiscale: lattice, topological)
2019	308 ( 177)	Computational design and additive manufacturing of periodic conformal metasurfaces by synthesizing topology optimization with conformal mapping	Vogiatzis, P., Ma, M., Chen, S., Gu, X.D.	2018	Computer Methods in Applied Mechanics and Engineering 328, pp. 477-497			Optimization (multiscale: lattice, topological)
2019	309	Coupling lattice structure topology optimization with design-dependent feature evolution for additive manufactured heat conduction design	Cheng, L., Liu, J., Liang, X., To, A.C.	2018	Computer Methods in Applied Mechanics and Engineering 332, pp. 408-439	State of the art methodologies	methodology	Optimization (multiscale: lattice, topological), thermofluids
2019	310 ( 107)	Topology optimization considering overhang constraint in additive manufacturing	Zhang, K., Cheng, G., Xu, L.	2019	Computers and Structures 212, pp. 86-100			Topology optimization, constraints
2019	311	Integrated Product, Production and Material Definition for Conventional versus Generative Manufacturing Technologies	Kaspar, J., Stoffels, P., Schneberger, J.-H., Vielhaber, M.	2018	Procedia CIRP 70, pp. 180-185	State of the art methodologies	methodology	material selection and process, assessment, process planning, multi-process manufacturing, conceptual design
2019	312	Modeling Key Characteristics in the Value Chain of Additive Manufacturing	Al-Meslemi, Y., Anwer, N., Mathieu, L.	2018	Procedia CIRP 70, pp. 90-95	State of the art methodologies	methodology	Selected materials and process, conceptual design
2019	313	Strategies for functionally graded lattice structures derived using topology optimisation for Additive Manufacturing	Panesar, A., Abdi, M., Hickman, D., Ashcroft, I.	2018	Additive Manufacturing 19, pp. 81-94	State of the art methodologies	methodology	Topology optimization, mechanics
2019	314	Fused Deposition Modelling based Printing of Full Complement Bearings	Harikrishnan, U., Soundarapandian, S.	2018	Procedia Manufacturing 26, pp. 818-825	State of the art methodologies	methodology	ensemble, tolerance
2019	315	Adaptive metamaterials by functionally graded 4D printing	Bodaghi, M., Damanpack, A.R., Liao, W.H.	2017	Materials and Design 135, pp. 26-36			Optimization (functional, multiscale)
2019	316 ( 280)	Creativity and productivity in product design for additive manufacturing: Mechanisms and platform outcomes of remixing	Friesike, S., Flath, C.M., Wirth, M., Thiesse, F.	2018	Journal of Operations Management			innovation/creativity, assembly/fusion
2019	317	Part decomposition and 2D batch placement in single-machine additive manufacturing systems	Oh, Y., Zhou, C., Behdad, S.	2018	Journal of Manufacturing Systems 48, pp. 131-139	State of the art methodologies	methodology	optimization process, assembly
2019	318	Production scheduling and nesting in additive manufacturing	Chergui, A., Hadj-Hamou, K., Vignat, F.	2018	Computers and Industrial Engineering 126, pp. 292-301	State of the art methodologies	methodology	Optimization of process (heuristic)
2019	319	Effects of hollow structures in sand mold manufactured using 3D printing technology	Deng, C., Kang, J., Shangguan, H., (...), Huang, T., Liu, Z.	2018	Journal of Materials Processing Technology 255, pp. 516-523	State of the art methodologies	methodology	design rules, experimental, molds
2019	320	Consolidating spare parts for asset maintenance with additive manufacturing	Knofius, N., van der Heijden, M.C., Zijm, W.H.M.	2019	International Journal of Production Economics 208, pp. 269-280	State of the art methodologies	methodology	maintenance, cost analysis
2019	321	A fully developed flow thermofluid model for topology optimization of 3D-printed air-cooled heat exchangers	Haertel, J.H.K., Nellis, G.F.	2017	Applied Thermal Engineering 119, pp. 10-24	State of the art methodologies	methodology	Optimization (topological), thermofluids, detail
2019	322	Experimental characterization of an additively manufactured heat exchanger for dry cooling of power plants	Arie, M.A., Shooshtari, A.H., Ohadi, M.M.	2018	Applied Thermal Engineering 129, pp. 187-198	State of the art methodologies	methodology	experimental, termofluidos, detail
2019	323	Development of an additive manufacturing-enabled compact manifold microchannel heat exchanger	Tiwari, R., Andhare, R.S., Shooshtari, A., Ohadi, M.	2019	Applied Thermal Engineering pp. 781-788	State of the art methodologies	methodology	termofluids
2019	324	Additive manufacturing (3D printing): A review of materials, methods, applications and challenges	Ngo, T.D., Kashani, A., Imbalzano, G., Nguyen, K.T.Q., Hui, D.	2018	Composites Part B: Engineering 143, pp. 172-196	State of the art methodologies	methodology	state of the art.
2019	325	Additive manufacturing: scientific and technological challenges, market uptake and opportunities	Tofail, S.A.M., Koumoulos, E.P., Bandyopadhyay, A., (...), O'Donoghue, L., Charitidis, C.	2018	Materials Today 21(1), pp. 22-37	State of the art methodologies	methodology	state of the art.
2019	326	Controllable and reversible tuning of material rigidity for robot applications	Wang, L., Yang, Y., Chen, Y., (...), Askounis, E., Pei, Q.	2018	Materials Today 21(5), pp. 563-576	State of the art methodologies	methodology	State of the art, variable stiffness materials (robotics)
2019	327 ( F45)	Criteria selection for a comparative study of functional performance of Fused Deposition Modelling and Vacuum Casting processes	Valerga Puerta, A.P., Sanchez, D.M., Batista, M., Salguero, J.	2018	Journal of Manufacturing Processes 35, pp. 721-727	State of the art methodologies	methodology, manufacturing	Process selection (comparison and analysis)
2019	328	Cost- and energy-efficient manufacture of gears by laser beam melting	Kamps, T., Lutter-Guenther, M., Seidel, C., Gutowski, T., Reinhart, G.	2018	CIRP Journal of Manufacturing Science and Technology 21, pp. 47-60	State of the art methodologies	methodology	economic and energy analysis, life cycle, hybrid processes, comparative
2019	329	Laser additive manufacturing and bionics: Redefining lightweight design	Emmelmann, C., Sander, P., Kranz, J., Wycisk, E.	2011	Physics Procedia 12(PART 1), pp. 364-368	State of the art methodologies	methodology	optimization (topological), weight, mechanics
2019	330	A Direct Material Reuse Approach Based on Additive and Subtractive Manufacturing Technologies for Manufacture of Parts from Existing Components	Le, V.T., Paris, H., Mandil, G., Brissaud, D.	2017	Procedia CIRP 61, pp. 229-234	State of the art methodologies	methodology	Reducing waste, process planning/management, hybrid process.
2019	331	A design for additive manufacturing ontology to support manufacturability analysis	Kim, S., Witherell, P., Rosen, D.W., Ko, H.	2018	Proceedings of the ASME Design Engineering Technical Conference, 2A-2018.	State of the art methodologies	methodology	DFAM, DFX mod AM
2019	332	Integrated Cross-Component Lightweight and Material-Oriented Development Methodology - The Embodiment Design Cycle	Kaspar, J., Vielhaber, M.	2018	Procedia CIRP 70, pp. 481-486	State of the art methodologies	methodology	Basic design, weight, mechanics
2019	333	Additive manufacturing of silicon based PneuNets as soft robotic actuators	Manns, M., Morales, J., Frohn, P.	2018	Procedia CIRP 72, pp. 328-333	State of the art methodologies	methodology	DFAM, limitations and advantages, robotics
2019	334 ( de 237)	Integrated design-oriented framework for Resource Selection in Additive Manufacturing	Uz Zaman, U.K., Rivette, M., Siadat, A., Baqai, A.A.	2018	Procedia CIRP 70, pp. 96-101			DFAM, material selection and processes
2019	335	Selection method for multiple performances evaluation during early design stages	Audoux, K., Segonds, F., Kerbrat, O., Aoussat, A.	2018	Procedia CIRP 70, pp. 204-210	State of the art methodologies	methodology	Method of selection and evaluation (conceptual and basic design) assessment (manufacturability, innovation sustainability)
2019	336	The development of a strategy for direct part reuse using additive and subtractive manufacturing technologies	Le, V.T., Paris, H., Mandil, G.	2018	Additive Manufacturing 22, pp. 687-699	State of the art methodologies	methodology	planning process, manufacturing multiprocess
2019	337 ( 266)	Digital design and nonlinear simulation for additive manufacturing	Weeger, O., Boddeti, N., Yeung, S.-K., Kaijima, S., Dunn, M.L.	2019	Additive Manufacturing 25, pp. 39-49			optimization (lattice), mechanics
2019	338	Additive manufacturing — A review of 4D printing and future applications	Mitchell, A., Lafont, U., Hołyńska, M., Semprimoschnig, C.	2018	Additive Manufacturing 24, pp. 606-626	State of the art methodologies	methodology	State of the art, optimization (lattice, topology), mechanics
2019	339	Invited review article: Where and how 3D printing is used in teaching and education	Ford, S., Minshall, T.	2019	Additive Manufacturing 25, pp. 131-150	State of the art methodologies	methodology	State of the art, DWAM, educational
2019	340	Designing for Big Area Additive Manufacturing	Roschli, A., Gaul, K.T., Boulger, A.M., (...), Blue, F., Borish, M.	2019	Additive Manufacturing 25, pp. 275-285	State of the art methodologies	methodology	design rules
2019	341 ( 124)	An additive manufacturing oriented design approach to mechanical assemblies	Sossou, G., Demoly, F., Montavon, G., Gomes, S.	2018	Journal of Computational Design and Engineering 5(1), pp. 3-18			assembly, mechanic
2019	342 ( 127)	Design for manufacturing to design for Additive Manufacturing: Analysis of implications for design optimality and product sustainability	Gebisa, A.W., Lemu, H.G.	2017	Procedia Manufacturing 13, pp. 724-731			optimization, sustainability
2019	343	Topology optimization aided structural design: Interpretation, computational aspects and 3D printing	Kazakis, G., Kanellopoulos, I., Sotiropoulos, S., Lagaros, N.D.	2017	Heliyon 3(10),e00431	State of the art methodologies	methodology	topological optimization, mechanics, weight
2019	344	Additive Manufacturing - Considerations on Geometric Accuracy and Factors of Influence	Umaras, E., Tsuzuki, M.S.G.	2017	IFAC PapersOnLine 50-1 (2017) 14940–14945	State of the art methodologies	methodology	Tolerances and roughness
2019	345	Knowledge-based design of artificial neural network topology for additive manufacturing process modeling: A new approach and case study for fused deposition modeling	Nagarajan, H.P.N., Mokhtarian, H., Jafarian, H., (...), Gary Wang, G., Haapala, K.R.	2019	Journal of Mechanical Design, Transactions of the ASME, 141(2), art. no. 021705.	State of the art methodologies	methodology	optimization (neural networks, heuristic, topological), database
2019	346	Rapid Manufacturing SLS® Design Guide	3D SYSTEMS	2016	-	State of the art methodologies	methodology	design rules
2019	347	Design for additive manufacturing: A creative approach	Rias, A.L., Bouchard, C., Segonds, F., Abed, S.	2016	Proceedings of International Design Conference, DESIGN DS 84, pp. 411-420	State of the art methodologies	methodology	Creative, DFAM, creative (innovation), state of the art (it is research but has enough reference)
2019	348	Generative design method for lattice structure with hollow struts of variable wall thickness	Wang, Y., Jing, S., Liu, Y., (...), Qie, L., Xing, H.	2018	Advances in Mechanical Engineering 10(3)	State of the art methodologies	methodology	Optimization (lattice), mechanics
2019	349	A review of synthesis methods for additive manufacturing	Rosen, D.W.	2016	Virtual and Physical Prototyping 11(4), pp. 305-317	State of the art methodologies	methodology	State of the art, Optimization (lattice, topological, shape)
2019	350	A review on composite materials and process parameters optimisation for the fused deposition modelling process	Mohan, N., Senthil, P., Vinodh, S., Jayanth, N.	2017	Virtual and Physical Prototyping 12(1), pp. 47-59	State of the art methodologies	methodology, manufacturing	Optimization (parameters, composite materials)
2019	351	Additive manufacturing-integrated hybrid manufacturing and subtractive processes: Economic model and analysis	Manogharan, G., Wysk, R.A., Harrysson, O.L.A.	2016	International Journal of Computer Integrated Manufacturing 29(5), pp. 473-488	State of the art methodologies	methodology	economic analysis, hybrid processes
2019	352	Additive manufacturing management: a review and future research agenda	Khorram Niaki, M., Nonino, F.	2017	International Journal of Production Research 55(5), pp. 1419-1439	State of the art methodologies	methodology, environment	State of the art, management, life cycle, economy, future business opportunities.
2019	353 ( 158)	Design optimization and validation of high-performance heat exchangers using approximation assisted optimization and additive manufacturing	Bacellar, D., Aute, V., Huang, Z., Radermacher, R.	2017	Science and Technology for the Built Environment 23(6), pp. 896-911			fluid terms, optimization
2019	354	Design for manufacturing and assembly/disassembly: joint design of products and production systems	Battaïa, O., Dolgui, A., Heragu, S.S., Meerkov, S.M., Tiwari, M.K.	2018	International Journal of Production Research 56(24), pp. 7181-7189	State of the art methodologies	methodology	State of the art (research article with many references), DFAM, assembly, modified DFX for AM.
2019	355 ( 138)	FDM for composite tooling Desin Guide	STRATASYS	-	-			DFAM
2019	356	FDM for composite tooling 2.0 Desin Guide	STRATASYS	-	-	State of the art methodologies	methodology	DFAM
2019	357	Designing for additive manufacturing technologies: a design research methodology	Silvina Félix, Nuno Dias & Violeta Clemente	2017	The Design Journal 20:sup1, S4754- S4757	State of the art methodologies	methodology	DFAM
2019	358	Design of Three-Dimensional, Triply Periodic Unit Cell Scaffold Structures for Additive Manufacturing	Mohammed, M.I., Gibson, I.	2018	Journal of Mechanical Design, Transactions of the ASME 140(7),071701	State of the art methodologies	methodology	Optimization (lattice)
2019	359	Design for Additively Manufactured Lightweight Structure: A Perspective	L. Yang1, O. L. A. Harrysson2, D. Cormier3, H. West2, S. Zhang1, H. Gong4, B. Stucker5	2016	Solid Freeform Fabrication 2016: Proceedings of the 26th Annual International Solid Freeform Fabrication Symposium – An Additive Manufacturing Conference	State of the art methodologies	methodology	Optimization (lattice, topological), mechanics, weight
2019	360	Simulation based method considering design for additive manufacturing and supply chain An empirical study of lamp industry	Chiu, M.-C., Lin, Y.-H.	2016	Industrial Management and Data Systems 116(2), pp. 322-348	State of the art methodologies	methodology	economy, administration, management
2019	361	Cooling system for 0.1 kN thrust micro-engines: Concept design using additive manufacturing	Ugolotti, M., Sharma, M., Williams, Z., (...), Ouwerkerk, J., Turner, M.	2017	58th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, 2017	State of the art methodologies	methodology	termofluids
2019	362	Multiple material additive manufacturing - Part 1: A review	Vaezi, M., Chianrabutra, S., Mellor, B., Yang, S.	2013	Virtual and Physical Prototyping 8(1), pp. 19-50	State of the art methodologies	methodology	multimaterial
2019	363	Rapid Prototyping-Distance Delivery Tools	Ismail Fidan, Birhan Isik	2009	US – TURKEY Workshop On Rapid Technologies, September 24 – 24, 2009			DWAM, educational, online
2019	364	Review of Heat Exchangers Enabled by Polymer and Polymer Composite Additive Manufacturing	Deisenroth, D.C., Moradi, R., Shooshtari, A.H., (...), Bar-Cohen, A., Ohadi, M.	2018	Heat Transfer Engineering 39(19), pp. 1652-1668	State of the art methodologies	methodology	State of the art, thermofluids
2019	365	Additive manufacturing: Current state, future potential, gaps and needs, and recommendations	Huang, Y., Leu, M.C., Mazumder, J., Donmez, A.	2015	Journal of Manufacturing Science and Engineering, Transactions of the ASME, 137(1),014001	State of the art methodologies	methodology	State of the art AM
2019	366	CAD and AM-fabricated moulds for fast cranio-maxillofacial implants manufacture	Ruiz-Huerta, L., Almanza-Arjona, Y.C., Caballero-Ruiz, A., (...), Díaz-Aguirre, C.M., Echevarría Y Pérez, E.	2016	Rapid Prototyping Journal 22(1), pp. 31-39	State of the art methodologies	methodology	medical
2019	367	A statistical method for build orientation determination in additive manufacturing	Zhang, Y., Harik, R., Fadel, G., Bernard, A.	2019	Rapid Prototyping Journal 25(1), pp. 187-207	State of the art methodologies	methodology	Tolerances and roughness
2019	368	The FaaS system using additive manufacturing for personalized production	Kang, H.S., Noh, S.D., Son, J.Y., (...), Park, J.H., Lee, J.Y.	2018	Rapid Prototyping Journal 24(9), pp. 1486-1499	State of the art methodologies	methodology, manufacturing	online manufacturing
2019	369	Smart materials in additive manufacturing: state of the art and trends	Gardan, J.	2019	Virtual and Physical Prototyping 14(1), pp. 1-18	State of the art methodologies	methodology	State of the art, optimization (lattice)
2019	370	Standardised product development for technology integration of additive manufacturing	Rohde, J., Jahnke, U., Lindemann, C., Kruse, A., Koch, R.	2019	Virtual and Physical Prototyping 14(2), pp. 141-147	State of the art methodologies	methodology	Design and process selection, production chain.
2021	371	3D printing: Printing precision and application in food sector	Zhenbin Liu and Min Zhang and Bhesh Bhandari and Yuchuan Wang	2017	Journal Article published Nov 2017 in Trends in Food Science & Technology volume 69 on pages 83 to 94	State of the art methodologies	methodology	applications in the food industry
2021	372	Additive Manufacturing Principles and Capabilities Cards	K Blake Perez and Kristin Lee Wood	2019		State of the art methodologies	methodology	design rule, innovation
2021	373	Additive Manufacturing (AM) Design Principle Cards	Perez, K Blake and Wood, Kristin	2019		State of the art methodologies	methodology	design rule, innovation
2021	374	Knowledge-Based Design of Artificial Neural Network Topology for Additive Manufacturing Process Modeling: A New Approach and Case Study for Fused Deposition Modeling	Hari P. N. Nagarajan and Hossein Mokhtarian and Hesam Jafarian and Saoussen Dimassi and Shahriar Bakrani-Balani and Azarakhsh Hamedi and Eric Coatan{\'{e}}a and G. Gary Wang and Karl R. Haapala	2019	Journal Article published 1 Feb 2019 in Journal of Mechanical Design volume 141 issue 2	State of the art methodologies	methodology	Knowledge Database for FDM, Neural Network
2021	375	Product Design for Manufacture and Assembly, Third Edition	Geoffrey Boothroyd, Peter Dewhurst, Winston A. Knight	2011	CRC Press, Taylor & Francis Group	State of the art methodologies	methodology	DFMA, state of the art review, design rule
2021	376	Engineering design	Dieter, George Ellwood and Schmidt, Linda C and others	2009	McGraw-Hill Higher Education Boston	State of the art methodologies	methodology	Conventional design theory, state of the art review, design rule.
2021	377	Engineering design: a systematic approach	Pahl, Gerhard and Beitz, Wolfgang	2013	Springer Science \& Business Media	State of the art methodologies	methodology	Conventional design theory, state of the art review, design rule.
2021	378	The mechanical design process	Ullman, David G	2010	McGraw-Hill New York	State of the art methodologies	methodology	Conventional design theory, state of the art review, design rule.
2021	379	Structural analysis of wing ribs obtained by additive manufacturing	Pedro Miguel Cardoso Carneiro and Pedro Gamboa	2019	Journal Article published 13 May 2019 in Rapid Prototyping Journal volume 25 issue 4 on pages 708 to 720	State of the art methodologies, mechanical modeling, failure theory.	mechanics, failure theory	simulation, design of reinforcements for wings, aerospace
2021	380	Classification of challenges in 3D printing for combined electrochemical and microfluidic applications: a review	Arivarasi A. and Anand Kumar	2019	Journal Article published 12 Aug 2019 in Rapid Prototyping Journal volume 25 issue 7 on pages 1328 to 1346	State of the art methodologies	methodology	State of the art, electrochemistry, microfluidics
2021	381	Investigation of professional design practice: a framework for designing plastic consumer products for additive manufacturing	Wei Liu, Zicheng Zhu, Songhe Ye, Xiaoneng Jin, Guanghe Yan	2019	Int. J. Materials and Product Technology, Vol. 58, Nos. 2/3, 2019	State of the art methodologies	methodology	Industrial practices and professions in AM, design rules.
2021	382	Fused deposition modelling: a review	Swapnil Vyavahare and Soham Teraiya and Deepak Panghal and Shailendra Kumar	2019-2020	Journal Article published 6 Jan 2020 in Rapid Prototyping Journal volume 26 issue 1 on pages 176 to 201	State of the art methodologies, mechanical modeling, optimization, surface modeling, Manufacturing process cases (general and specific)	Methodology, mechanics, surface, manufacturing, dimension	Mechanical characterization, design rule, finish, process chain, multiprocess, tolerances.
2021	383	3D printing: a critical review of current development and future prospects	Md. Hazrat Ali and Shaheidula Batai and Dastan Sarbassov	2019	Journal Article published 8 Jul 2019 in Rapid Prototyping Journal volume 25 issue 6 on pages 1108 to 1126	State of the art methodologies, mechanical modeling, optimization, surface modeling, Manufacturing process cases (general and specific)	Methodology, mechanics, surface, manufacturing, dimension, optimization	Mechanical characterization, design rule, finishing, tolerances, optimization.
2021	384	Methods and materials for additive manufacturing: A critical review on advancements and challenges	M Bhuvanesh Kumar and P Sathiya	2021	Thin-Walled Structures Volume 159, February 2021, 107228	State of the art methodologies, mechanical modeling, optimization, surface modeling, manufacturing process cases (general and specific), medical applications, dimensional modeling.	Methodology, mechanics, surface, manufacturing, dimension, optimization, medicine.	Mechanical characterization, design rule, finishing, tolerances, optimization, biomaterials, tissue engineering, tissue anchoring.
2021	385	A review on quality control in additive manufacturing	Hoejin Kim and Yirong Lin and Tzu-Liang Bill Tseng	2018	Journal Article published 9 Apr 2018 in Rapid Prototyping Journal volume 24 issue 3 on pages 645 to 669	State of the art methodologies, surface modeling, Cases of manufacturing processes (general and specific), dimensional modeling.	Methodology, surface, manufacturing, dimension	Design rule, finish, tolerances
2021	386	Current status and future directions of fused filament fabrication	Sunpreet Singh and Gurminder Singh and Chander Prakash and Seeram Ramakrishna	2020	Journal of Manufacturing Processes Volume 55, July 2020, Pages 288-306	State of the art methodologies, mechanical modeling, optimization, surface modeling, Manufacturing process cases (general and specific)	Methodology, mechanics, surface, manufacturing, dimension	Mechanical characterization, design rule, finish, process chain, multiprocess, tolerances.
2021	387	CAD-based design and pre-processing tools for additive manufacturing	Botao Zhang and Archak Goel and Omkar Ghalsasi and Sam Anand	2019	Journal of Manufacturing Systems Volume 52, Part B, July 2019, Pages 227-241	State of the art methodologies, surface modeling, Cases of manufacturing processes (general and specific)	Methodology, surface, manufacturing	Design rule, finish, manufacturability
2021	388	Methodology for design process of a snap-fit joint made by additive manufacturing	Emilio A. Ramírez, Fausto Caicedo, Jorge Hurel, Carlos G. Helguero, Jorge Luis Amaya	2019	Journal Article published 2019 in Procedia CIRP volume 79 on pages 113 to 118	State of the art methodologies	methodology, assembly	rule of design, assembly
2021	389	Detailed design process and assembly considerations for snap-fit joints using additive manufacturing	Jorge Luis Amaya, Emilio A. Ramírez, Galarza F. Maldonado, Jorge Hurel	2019	Journal Article published 2019 in Procedia CIRP volume 84 on pages 680 to 687	State of the art methodologies	methodology, assembly	rule of design, assembly
2021	390	Multi-objective optimization approach in design for additive manufacturing for fused deposition modeling	Elnaz Asadollahi-Yazdi, Julien Gardan, Pascal Lafon	2019	Journal Article published 10 Jun 2019 in Rapid Prototyping Journal volume 25 issue 5 on pages 875 to 887	State of the art methodologies, optimization, surface modeling, mechanical modeling.	Methodology, surface, mechanics, optimization, manufacturing	Mechanical characterization, finish, manufacturability/manufacturing.
2021	391	Design for additive manufacturing – a review of available design methods and software	Anton Wiberg, Johan Persson, Johan Ölvander	2019	Journal Article published 8 Jul 2019 in Rapid Prototyping Journal volume 25 issue 6 on pages 1080 to 1094	State of the art methodologies	methodology	review of methodologies and computer tools, software
2021	392	A design for additive manufacturing case study: fingerprint stool on a BigRep ONE	James I. Novak, Jonathon O’Neill	2019	Journal Article published 8 Jul 2019 in Rapid Prototyping Journal volume 25 issue 6 on pages 1069 to 1079	State of the art methodologies	methodology	Design rule, finish, manufacturability, costs
2021	393	Personalized design of part orientation in additive manufacturing	Cong Yu, LongFei Qie, ShiKai Jing, Yan Yan	2019	Journal Article published 11 Nov 2019 in Rapid Prototyping Journal volume 25 issue 10 on pages 1647 to 1660	State of the art methodologies, optimization, surface modeling, dimensional modeling, market study and environment.	Methodology, surface, tolerances, dimension, optimization, manufacturing, cost.	Methodology, surface, tolerances, dimension, optimization, manufacturing, cost.
2021	394	Design Innovation With Additive Manufacturing: A Methodology	K. Blake Perez, Carlye A. Lauff, Bradley A. Camburn, Kristin L. Wood	2019	Proceedings Article published 18 Aug 2019 in Volume 7: 31st International Conference on Design Theory and Methodology	State of the art methodologies	methodology	Methodology, innovation, design rules
2021	395	Design Principle Cards: Toolset to Support Innovations With Additive Manufacturing	Carlye A. Lauff and K. Blake Perez and Bradley A. Camburn and Kristin L. Wood	2019	Proceedings Article published 18 Aug 2019 in Volume 4: 24th Design for Manufacturing and the Life Cycle Conference; 13th International Conference on Micro- and Nanosystems	State of the art methodologies	methodology	design rule, innovation
2021	396	Choice between virtual model and prototype in additive manufacturing design process	Thanh Hoang Vo, Guy Prudhomme, Philippe Marin, Frédéric Vignat	2019	DYNA-BILBAO	State of the art methodologies, optimization.	Methodology, optimization, costs, manufacturability	Methodology for prototype selection for testing, costs, manufacturability.
2021	397	A new methodology for design and manufacturing of a customized silicone partial foot prosthesis using indirect additive manufacturing	Osama Abdelaal and Saied Darwish and Khaled Abd Elmougoud and Saleh Aldahash	2019	The International Journal of Artificial Organs 2019, Vol. 42(11) 645–657	State of the art methodologies, Cases of production and manufacturing processes (general and specific), Medical applications.	methodology, medicine	prosthesis, fabricability to English is prosthesis, fabricability.
2021	398	Design and Manufacturing Strategies for Fused Deposition Modelling in Additive Manufacturing: A Review	Hugo I. Medellin-Castillo and Jorge Zaragoza-Siqueiros	2019	Journal Article published Dec 2019 in Chinese Journal of Mechanical Engineering volume 32 issue 1	State of the art methodologies, mechanical modeling, optimization, surface modeling, Manufacturing process cases (general and specific)	Methodology, mechanics, surface, manufacturing, dimension	Mechanical characterization, design rule, finish, process chain, multiprocess, tolerances.
2021	399	Evaluating the Potential of Design for Additive Manufacturing Heuristic Cards to Stimulate Novel Product Redesigns	Alexandra Blösch-Paidosh and Saeema Ahmed-Kristensen and Kristina Shea	2019	Proceedings Article published 18 Aug 2019 in Volume 2A: 45th Design Automation Conference	State of the art methodologies	methodology	design rule, innovation
2021	400	An economic analysis comparing the cost feasibility of replacing injection molding processes with emerging additive manufacturing techniques	Matthew Franchetti and Connor Kress	2017	Int J Adv Manuf Technol (2017) 88:2573–2579	State of the art methodologies	methodology, costs	methodology, costs
2021	401	Evaluation of technical and economic feasibility of additive manufacturing technology: evidences from a case study	Zanardini, M and Bacchetti, A and Adrodegari, F	2016	Industrial Systems Engineering	State of the art methodologies	methodology, costs	methodology, costs SLS FDM
2021	402	Environmental and Economic Implications of Distributed Additive Manufacturing: The Case of Injection Mold Tooling	Runze Huang and Matthew E. Riddle and Diane Graziano and Sujit Das and Sachin Nimbalkar and Joe Cresko and Eric Masanet	2017	Journal Article published Nov 2017 in Journal of Industrial Ecology volume 21 issue S1 on pages S130 to S143	State of the art methodologies	Methodology, costs, environment	Methodology, costs, environment
2021	403	Additive manufacturing: status and opportunities	Gupta, Nayanee and Weber, Christopher and Newsome, Sherrica	2012	Science and Technology Policy Institute, Washington	State of the art methodologies	methodology	state of the art.
2021	404	Design for additive manufacturing: a comprehensive review of the tendencies and limitations of methodologies	Luis Lisandro Lopez Taborda, Heriberto Maury, Jovanny Pacheco	2021	Journal Article published 4 Jun 2021 in Rapid Prototyping Journal volume ahead-of-print issue ahead-of-print	State of the art methodologies	methodology	state of the art.
2023	405	Beautiful and Functional: A Review of Biomimetic Design in Additive Manufacturing	du Plessis, A., Broeckhoven, C., Yadroitsava, I., (...), Kunju, R., Bhate, D.	2019	Additive Manufacturing, 27, pp. 408-427.	State of the art methodologies	methodology	state of the art.
2023	406	A design framework for additive manufacturing	Bikas, H., Lianos, A.K., Stavropoulos, P.	2019	Additive Manufacturing, Volume 27, May 2019, Pages 408-427	State of the art methodologies	methodology	state of the art.
2023	407	Methodology for design process of a snap-fit joint made by additive manufacturing	Ramírez, E.A., Caicedo, F., Hurel, J., Helguero, C.G., Amaya, J.L.	2019	Procedia CIRP, 79, pp. 113-118	State of the art methodologies	design methodology	Functional/assembly/joints
2023	408	Industrial Case Studies of Design for Plastic Additive Manufacturing for End-Use Consumer Products	Liu, W., Zhu, Z., Ye, S.	2019	3D Printing and Additive Manufacturing, 6(6), pp. 281-292.	State of the art methodologies	methodology	state of the art.
2018	TF0	Mechanics of Composite Materials, Second Edition	Autar Kaw	2005	CRC (PRESS)	failure theory	failure theory	composite materials
2018	TF1	Strength and failure mechanism in 3D printed parts	Bishwonath Adhikari	2017	Thesis submitted in partial fulfillment of the requirements for the degree of Master of Science in Technology, AALTO UNIVERSITY SCHOOL OF ENGINEERING Department of Mechanics of Material	failure theory	failure theory	failure theory fdm
2018	TF2	Evaluating Mechanical Properties and Failure Mechanisms of Fused Deposition Modeling Acrylonitrile Butadiene Styrene Parts	M. S. Uddin et all	2017	Journal of Manufacturing Science and Engineering AUGUST 2017, Vol. 139	failure theory	failure theory	Theory of failure FDM/fractography
2018	TF3	An assessment of the effect of printing orientation, density, and filler pattern on the compressive performance of 3D printed ABS structures by fuse deposition	G. Domínguez-Rodríguez1 & J. J. Ku-Herrera2 & A. Hernández-Pérez3	2017	Int J Adv Manuf Technology	failure theory	failure theory	The translated value of teoria de falla fdm/ compresion in English is failure theory fdm/ compression.
2018	TF4	Mechanical properties and failure mechanisms of sandwich panels with ultra-lightweight three-dimensional hierarchical lattice cores	Qianqian Wu a , Ying Gao a , Xingyu Wei a , Davood Mousanezhad b , Li Ma a , Ashkan Vaziri b , Jian Xiong a ,	2018	International Journal of Solids and Structures 132–133 (2018) 171–187	failure theory	failure theory	mechanical properties/failure mechanism/compression
2018	TF5	Damage evolution and failure mechanisms in additively manufactured stainless steel	HollyD.Carlton a,n, AbdelHaboub c, GilbertF.Gallegos a, DilworthY.Parkinson b, Alastair A.MacDowell b	2016	Materials Science&EngineeringA651(2016)406–414	failure theory	failure theory	Failure mechanism/fractography
2018	TF6	FAILURE CRITERION FOR SLS ADDITIVE MANUFACTURED PARTS	P. Obst, M. Launhardt and D. Drummer, LKT, Friedrich Alexander University, Erlangen, Germany P. V. Osswald, Technical University of Munich, Munich, Germany T. A. Osswald, Polymer Engineering Center, University of Wisconsin-Madison, WI, USA	2017		failure theory	failure theory	sls failure theory
2021	TF6B	Failure criterion for PA12 SLS additive manufactured parts	P. Obst and M. Launhardt and D. Drummer and P.V. Osswald and T.A. Osswald	2018	Additive Manufacturing 21 (2018) 619–627	failure theory	failure theory	sls failure theory
2018	TF7	Strength-based topology optimization for anisotropic parts	Amir M. Mirzendehdel, Behzad Rankouhi, Krishnan Suresh	2018	Additive Manufacturing 19 (2018) 104–113	failure theory	failure theory	Mechanical resistance/topological optimization/failure theory FDM
2018	TF8	The effect of anisotropy on the optimization of additively manufactured lattice structures	Tino Stankovi´c∗, Jochen Mueller, Kristina Shea	2017	Additive Manufacturing 17 (2017) 67–76	failure theory	failure theory	mechanical resistance/optimization
2018	TF9	Effect of build orientation on the mechanical reliability of 3D printed ABS	Özgür Keleş, Caleb Wayne Blevins, Keith J. Bowman	2017	Rapid Prototyping Journal, Vol. 23 Issue: 2, pp.320-328,	failure theory	failure theory	fracture mechanics
2018	TF10	Influence of meso-structure and chemical composition on FDM 3D-printed parts	Gianluca Alaimo, Stefania Marconi, Luca Costato, Ferdinando Auricchio*	2017	Composites Part B 113 (2017) 371e380	failure theory	failure theory	Theory of failure FDM
2018	TF11	Tsai-Wu Analysis of a Thin-Walled 3D-Printed Polylactic Acid (PLA) Structural Bracket	Ruiqi Chen, Stanford University; Ashwin Ramachandran, Stanford University; Cheng Liu, Stanford University; Fu-Kuo Chang, Stanford University; Debbie Senesky, Stanford	2017	58th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference Grapevine, Texas	failure theory	failure theory	Theory of failure FDM
2018	TF12	Investigation of adhesion strength of metallization on thermoplastic and ceramic substrates	Sven Brinkhues, Akhil Kanthamneni, Andreas Brose	2016	2016 12th international congress molded interconnect devices - scientific proceedings, MID 2016 7738935	failure theory	failure theory	Adhesion resistance
2018	TF13	Fracture mechanical characterization and lifetime estimation of near-homogeneous components produced by fused filament fabrication	Florian Arbeitera,*, Martin Spoerkb, Johannes Wienera, Anja Goscha, Gerald Pintera	2018	Polymer Testing	failure theory	failure theory	fracture mechanics
2019	TF14	A Method to Improve the Fracture Toughness Using 3D Printing by Extrusion Deposition	Julien Gardan and Ali Makke and Naman Recho	2016	Procedia Structural Integrity	failure theory	-	fracture mechanics
2019	TF15	The impact of print orientation and raster pattern on fracture toughness in additively manufactured ABS	McLouth, T.D., Severino, J.V., Adams, P.M., Patel, D.N., Zaldivar, R.J.	2017	Additive Manufacturing 18, pp. 103-109	failure theory	-	fracture mechanics
2019	TF16	Mechanical strength of welding zones produced by polymer extrusion additive manufacturing	Davis, C.S., Hillgartner, K.E., Han, S.H., Seppala, J.E.	2017	Additive Manufacturing 16, pp. 162-166	failure theory	-	interlayer resistance
2019	TF17	Fracture resistance measurement of fused deposition modeling 3D printed polymers	Aliheidari, N., Tripuraneni, R., Ameli, A., Nadimpalli, S.	2017	Polymer Testing 60, pp. 94-101	failure theory	-	fracture mechanics
2021	TF18	Fracture behavior of additively manufactured components: A review	Mohammad Reza Khosravani and Filippo Berto and Majid R. Ayatollahi and Tamara Reinicke	2020	Theoretical and Applied Fracture Mechanics Volume 109, October 2020, 102763	failure theory	failure theory	fracture mechanics
2021	TF19	Fracture mechanics: fundamentals and applications	Anderson, Ted L	2017	CRC press	failure theory	failure theory	fracture mechanics
2021	TF20	THE STRESS ANALYSIS OF CRACKS HANDBOOKS	Tada, Hiroshi and Paris, P and Irwin, G	2000	ASME PRESS	failure theory	failure theory	fracture mechanics
2021	TF21	Fracture loads prediction of the modified 3D-printed ABS specimens under mixed-mode I/II loading	B. Ameri and F. Taheri-Behrooz and M.R.M. Aliha	2020	Engineering Fracture Mechanics 235 (2020) 107181	failure theory	failure theory	fracture mechanics
2021	TF22	Failure surface development for ABS fused filament fabrication parts	Gerardo A. {Mazzei Capote} and Natalie M. Rudolph and Paul V. Osswald and Tim A. Osswald	2019	Additive Manufacturing 28 (2019) 169–175	failure theory	failure theory	Static failure theory
2023	TF22B	Validating a Failure Surface Developed for {ABS} Fused Filament Fabrication Parts through Complex Loading Experiments	Gerardo A. Mazzei Capote *, Alec Redmann and Tim A. Osswald	2019	J. Compos. Sci. 2019, 3, 49; doi:10.3390/jcs3020049	failure theory	failure theory	Static failure theory
2021	TF23	A strength tensor based failure criterion with stress interactions	Paul V. Osswald and Tim A. Osswald	2018	Polymer Composites volume 39 issue 8 on pages 2826 to 2834	failure theory	failure theory	Static failure theory
2021	TF24	A method to predict the ultimate tensile strength of 3D printing polylactic acid (PLA) materials with different printing orientations	Tianyun Yao and Zichen Deng and Kai Zhang and Shiman Li	2019	Composites Part B 163 (2019) 393–402	failure theory	failure theory	static failure theory, sheet
2021	TF25	Fracture Resistance Analysis of 3D-Printed Polymers	Ali Zolfagharian and Mohammad Reza Khosravani and Akif Kaynak	2020	Polymers volume 12 issue 2 on page 302	failure theory	failure theory	fracture mechanics
2021	TF26	Fracture and load-carrying capacity of 3D-printed cracked components	Mohammad Reza Khosravani and Ali Zolfagharian	2020	Extreme Mechanics Letters 37 (2020) 100692	failure theory	failure theory	fracture mechanics
2021	TF27	Numerical and experimental studies of additively manufactured polymers for enhanced fracture properties	J. Li and S. Yang and D. Li and V. Chalivendra	2018	Engineering Fracture Mechanics 204 (2018) 557–569	failure theory, mechanical modeling	failure theory, mechanics	Fracture mechanics, characterization, simulation
2021	TF28	Fracture of 3D-printed polymers: Crucial role of filament-scale geometric features	James Allum and Andrew Gleadall and Vadim V. Silberschmidt	2020	Engineering Fracture Mechanics 224 (2020) 106818	failure theory	failure theory	fracture mechanics
2021	TF29	The Essential Work of Fracture parameters for 3D printed polymer sheets	I.I. Cuesta and E. Martinez-Pañeda and A. Díaz and J.M. Alegre	2019	Materials and Design 181 (2019) 107968	failure theory	failure theory	fracture mechanics
2021	TF30	Interlayer adhesion and fracture resistance of polymers printed through melt extrusion additive manufacturing process	Nahal Aliheidari and Josef Christ and Rajasekhar Tripuraneni and Siva Nadimpalli and Amir Ameli	2018	Materials and Design 156 (2018) 351–361	failure theory, mechanical modeling	failure theory, mechanics	Fracture mechanics, characterization, simulation
2021	TF31	Modeling the strength of 3D printed parts	Johnny Wikström	2015	Aalto University, School of Engineering, Mechanical Engineering	failure theory	failure theory	Static failure theory
2021	TF32	Numerical Prediction of 3D Printed Specimens Based on a Strengthening Method of Fracture Toughness	Marouene Zouaoui, Carl Labergere, Julien Gardan, Ali Makke, Naman Recho, Quentin Alexandre, Pascal Lafon	2019	Procedia CIRP volume 81 on pages 40 to 44	failure theory, mechanical modeling	failure theory, mechanics	Fracture mechanics, characterization, simulation
2017	M1	Fused deposition modeling with polypropylene	O.S. Carneiro, A.F. Silva, R. Gomes	2015	Materials & Design 83 (2015) 768–776	mechanical modeling	mechanics	Additive
2017	M2	Fiber Bragg grating based investigation of residual strains in ABS parts fabricated by fused deposition modeling process	Antreas Kantaros, Dimitris Karalekas	2013	Materials and Design 50 (2013) 44–50	Creation of new materials	mechanics	Residual stresses
2017	M3	Impact absorption capacity of 3D-printed components fabricated by fused deposition modelling	A. Tsouknidas, M. Pantazopoulos, I. Katsoulis, D. Fasnakis, S. Maropoulos, N.Michailidis	2016	Materials and Design 102 (2016) 41–44	mechanical modeling	mechanics	Impact
2017	M4	Additive manufacturing and mechanical characterization of graded porosity scaffolds designed based on triply periodic minimal surface architectures	Afshar, M., Anaraki, A.P., Montazerian, H., Kadkhodapour, J.	2016	journal of the mechanical behavior of biomedical materials 62 (2016) 481–494	mechanical modeling	mechanics	Porosity
2017	M5	Experimental characterization and analytical modelling of the mechanical behaviour of fused deposition processed parts made of ABS-M30	Dario Croccolo, Massimiliano De Agostinis, Giorgio Olmi	2013	Computational Materials Science 79 (2013) 506–518	mechanical modeling	mechanics	Modeling and additive
2017	M6	Influence of Fill Gap on Flexural Strength of Parts Fabricated by Curved Layer Fused Deposition Modeling	Hua Wei Guan, Monica Mahesh Savalani, Ian Gibson, Olaf Diegel	2015	Procedia Technology 20 ( 2015 ) 243 – 248	mechanical modeling	mechanics	Flexion
2017	M7	Isotropic and anisotropic elasticity and yielding of 3D printed material	Zou, R., Xia, Y., Liu, S., (...), Hu, Q., Shan, C.	2016	Composites Part B 99 (2016) 506e513	mechanical modeling	mechanics	Modeling
2017	M8	Parametric appraisal of mechanical property of fused deposition modelling processed parts	Anoop Kumar Sood, R.K. Ohdar, S.S. Mahapatra	2010	Materials and Design 31 (2010) 287–295	mechanical modeling	mechanics	deer
2017	M9	Influence of inter-layer cooling time on the quasi-static properties of ABS components produced via Fused Deposition Modelling	M. Faes, E. Ferraris, D. Moens	2016	Procedia CIRP 42 ( 2016 ) 748 – 753	mechanical modeling	mechanics	Cooling time
2017	M10	3-D printing of multifunctional carbon nanotube yarn reinforced components	John M. Gardnera, Godfrey Sautib, Jae-Woo Kimb, Roberto J. Canoa, Russell A. Wincheskia, Christopher J. Stelter a, Brian W. Grimsleya, Dennis C. Workinga, Emilie J. Siochia,∗	2016	Additive Manufacturing 12 (2016) 38–44	mechanical modeling	mechanics	nanotubes
2017	M11	Mechanical properties and shape memory effect of 3D-printed PLA-based porous scaffolds	F.S.Senatovn, K.V.Niaza,M.Yu.Zadorozhnyy,A.V.Maksimkin, S.D.Kaloshkin,Y.Z.Estrin	2016	j o urnal of the mechanical behavior of biomedical materials 57 (2016) 139–148	mechanical modeling	mechanics	Porosity
2017	M12	Development of in-house composite wire based feed stock filaments of fused deposition modelling for wear-resistant materials and structures	Rupinder Singh, Sunpreet Singh, Fernando Fraternali	2016	Composites Part B 98 (2016) 244e249	Creation of new materials	mechanics	additive
2017	M13	Thermo-mechanical properties of a highly filled polymeric composites for Fused Deposition Modeling	M. Nikzad, S.H. Masood ⇑, I. Sbarski	2011	Materials and Design 32 (2011) 3448–3456	Creation of new materials	mechanics	additive
2017	M14	Mechanical and thermal properties of ABS/montmorillonite nanocomposites for fused deposition modeling 3D printing	Zixiang Weng a,c, JianleiWang a,c, T. Senthil a, LixinWu a,b,⁎	2016	Materials and Design 102 (2016) 276–283	Creation of new materials	mechanics	additive
2017	M15	Fused deposition modeling of novel scaffold architectures for tissue engineering applications	Iwan Zeina, Dietmar W. Hutmacherb,*, Kim Cheng Tanc, Swee Hin Teoh	2002	Biomaterials 23 (2002) 1169–1185	Creation of new materials	mechanics	hive structure
2017	M16	Mechanical properties of parts fabricated with inkjet 3D printing through efficient experimental design	J. Mueller a,⁎, K. Shea a, C. Daraio b	2015	Materials and Design 86 (2015) 902–912	mechanical modeling	mechanics	deer
2017	M17	Low-cycle fatigue behavior of 3d-printed PLA-based porous scaffolds	F.S. Senatov*, K.V. Niaza, A.A. Stepashkin, S.D. Kaloshkin	2016	Composites Part B 97 (2016) 193e200	mechanical modeling	mechanics	fatigue
2017	M18	Mechanical properties of FDM and SLA low-cost 3-D prints	Ksawery Szykiedansa,*, Wojciech Credoa	2016	Procedia Engineering 136 ( 2016 ) 257 – 262	mechanical modeling	mechanics	Low-cost printers
2017	M19	Fiber reinforcement during 3D printing	Susanne Christ,Martin Schnabel,Elke Vorndran,Jürgen Groll,Uwe Gbureck	2015	Materials Letters139(2015)165–168	mechanical modeling	mechanics	Additive
2017	M20	Effect of layer printing delay on mechanical properties and dimensional accuracy of 3D printed porous prototypes in bone tissue engineering	Arghavan Farzadia,n, Vicknes Waranb, MehranSolati-Hashjina, ZainalAriffAbdulRahmanc, Mitra Asadia, NoorAzuanAbuOsmana	2015	Ceramics International41(2015)8320–8330	mechanical modeling	mechanics	Cooling time, bone, pore
2017	M21	Fabrication of imitative cracks by 3D printing for electromagnetic nondestructive testing and evaluations	NoritakaYusa∗, WeixiChen, JingWang, HidetoshiHashizume	2016	Case StudiesinNondestructiveTestingandEvaluation5(2016)9–14	mechanical modeling	mechanics	complementary essay
2017	M22	New application of 3D printing method for photostress investigation	Péter Ficzerea *, Lajos Borbásb	2016	Materials Today: Proceedings 3 ( 2016 ) 969 – 972	mechanical modeling	mechanics	complementary essay
2017	M23	Caracterización experimental de las constantes elásticas y propiedades mecánicas del ABS en el proceso de impresión 3D	Algarín R. a, Guillen D. b & Fuentes W. c	2016	-	mechanical modeling	mechanics	Sure, I can help you with that. Here is the translation of modelacion into English: modeling I have removed the quotation and double quotation marks from the translated value.
2017	M24	The effects of moisture and temperature on the mechanical properties of additive manufacturing components: fused deposition modeling	Eunseob Kim, Yong-Jun Shin, Sung-Hoon Ahn	2016	Rapid Prototyping Journal, Vol. 22 Issue: 6,pp. 887-894	mechanical modeling	mechanics	Sure, I can help you with that. Here is the translation of modelacion into English: modeling I have removed the quotation and double quotation marks from the translated value.
2017	M25	Preliminary design and analysis of tensile test samples developed by Additive Manufacturing	Wendt, C., Batista, M., Moreno, E., (...), Droste, O., Marcos, M.	2015	Procedia Engineering 132, pp. 132-139	New mechanical tests	mechanics	modeling and testing
2017	M26	Mechanical property characterization and simulation of fused deposition modeling Polycarbonate parts	Miquel Domingo-Espin a, Josep M. Puigoriol-Forcada a, Andres-Amador Garcia-Granada a, Jordi Llumà c, Salvador Borros b, Guillermo Reyes a,⇑	2015	Materials & Design 83 (2015) 670–677	mechanical modeling	simulation and modeling	simulation
2017	M27	Modeling and characterization of fused deposition modeling tooling forvacuum assisted resin transfer molding process	H. Li, G. Taylor, V. Bheemreddy, O. Iyibilgin, M. Leu, K. Chandrashekhara	2015	Additive Manufacturing 7 (2015) 64–72	mechanical modeling	simulation and modeling	Thermal efforts
2017	M28	Comparative between FEM models for FDM parts and their approach to a real mechanical behaviour	J. Martíneza,*, J.L. Diégueza, E. Aresb, A. Pereirab, P. Hernándezb, J.A. Pérezb	2013	Procedia Engineering 63 ( 2013 ) 878 – 884	mechanical modeling	simulation and modeling	simulation
2017	M29	ANALYSIS OF EFFECT OF INTERNAL STRUCTURES ON TENSILE STRENGTH OF THE FDM PARTS	Beulah Mani Paleti1, Karteek Navuri2, Eswara Kumar A.3, Putti Venkata Siva Teja4	2017	International Journal of Pure and Applied Mathematics, Volume 115 No. 6 2017, 123-131	mechanical modeling	simulation and modeling	simulation
2017	M30	EFFECT OF INTERNAL STRUCTURES ON COMPRESSIVE STRENGTH OF THE FDM PARTS	Beulah Mani Paleti1, Karteek Navuri, Eswara Kumar A.3, J. N. Malleswara Rao	2017	International Journal of Pure and Applied Mathematics, Volume 115 No. 6 2017, 139-146	mechanical modeling	mechanics	MODELING
2017	M31	Studies on Effect of Fused Deposition Modelling Process Parameters on Ultimate Tensile Strength and Dimensional Accuracy of Nylon	C K Basavaraj and M Vishwas	2016	IOP Conference Series: Materials Science and Engineering	mechanical modeling	mechanics	MODELING
2017	M32	Mechanical behavior of additive manufactured, powder-bed laser-fused materials	Todd M. Mower n, Michael J. Long	2016	Materials Science & Engineering A 651 (2016) 198–213	mechanical modeling	mechanics	MODELING
2017	M33	Experimental characterization of the tensile strength of ABS parts manufactured by fused deposition modeling process	Kyle Raneya, Eric Lanib, Devi K.Kallac,*	2017	Materials Today: Proceedings 4 (2017) 7956–7961	mechanical modeling	mechanics	MODELING
2017	M34	Additive manufacturing of PLA structures using fused deposition modelling: Effect of process parameters on mechanical properties and their optimal selection	J.M. Chacón, M.A. Caminero,*, E. García-Plaza, P.J. Núñez	2017	Materials and Design 124 (2017) 143–157	mechanical modeling	mechanics	MODELING
2017	M35	Experimental characterization and micrography of 3D printed PLA and PLA reinforced with short carbon fibers	Rafael Thiago Luiz Ferreira a, *, Igor Cardoso Amatte a, c, Thiago Assis Dutra a,	2017	Composites Part B 124 (2017) 88e100	mechanical modeling	mechanics	MODELING
2017	M36	Improving the impact strength of Poly(lactic acid) (PLA) in fused layer modeling (FLM)	Lu Wang a, b, *, William M. Gramlich c, Douglas J. Gardner a, b	2017	Polymer 114 (2017) 242e248	mechanical modeling	mechanics	MODELING
2017	M37	Experimental investigation of creep deformation of part processed by fused deposition modeling using definitive screening design	Omar Ahmed Mohameda,∗, Syed Hasan Masooda, Jahar Lal Bhowmikb	2017	Additive Manufacturing 18 (2017) 164–170	mechanical modeling	mechanics	MODELING
2017	M38	Investigation of mechanical anisotropy of the fused filament fabrication process via customized tool path generation	Carsten Koch, Luke Van Hulle∗, Natalie Rudolph	2017	Additive Manufacturing 16 (2017) 138–145	mechanical modeling	mechanics	MODELING AND SIMULATION
2017	M39	An insight to the failure of FDM parts under tensile loading: finite element analysis and experimental study	Ashu Garg, Anirban Bhattacharya⁎	2017	International Journal of Mechanical Sciences 120 (2017) 225–236	mechanical modeling	mechanics	MODELING AND SIMULATION
2017	M40	Residual stress measurement in Fused Deposition Modelling parts	Caterina Casavola, Alberto Cazzato, Vincenzo Moramarco*, Giovanni Pappalettera	2017	Polymer Testing 58 (2017) 249e255	mechanical modeling	mechanics	MODELING
2017	M41	Measurements of the mechanical response of unidirectional 3D-printed PLA	Y. Song, Y. Li, W. Song, K. Yee, K.-Y. Lee, V.L. Tagarielli	2017	Materials and Design 123 (2017) 154–164	mechanical modeling	mechanics	MODELING AND SIMULATION
2017	M42	FEM based evaluation of Fused Layer Modelling monolayers in tensile testing	C.WendtaA.P.ValergaaO.DrostebM.BatistaaM.Marcosa	2017	Procedia Manufacturing Volume 13, 2017, Pages 916-923	mechanical modeling	mechanics	MODELING
2017	M43	Characterization of Material Behavior of the Fused Deposition Modeling Processed Parts	Madhukar Somireddy and Aleksander Czekanski	2017	Volume 2: Additive Manufacturing; Materials ASME 2017 12th International Manufacturing Science and Engineering Conference collocated with the JSME/ASME 2017 6th International Conference on Materials and Processin	mechanical modeling	mechanics	MODELING AND SIMULATION
2017	M44	Experimental characterization of the tensile strength of ABS parts manufactured by fused deposition modeling process	Kyle Raneya, Eric Lanib, Devi K.Kallac,*	2017	Materials Today: Proceedings 4 (2017) 7956–7961	mechanical modeling	mechanics	MODELING AND SIMULATION
2017	M45	Applications of Fiber-Reinforced Polymers in Additive Manufacturing	Thomas Hofstätter and David B. Pedersen and Guido Tosello and Hans N. Hansen	2017	Procedia CIRP 66 ( 2017 ) 312 – 316	mechanical modeling	mechanics	MODELING AND SIMULATION
2017	M46	Fused filament fabrication of fiber-reinforced polymers: A review	Bastian Brenken and Eduardo Barocio and Anthony Favaloro and Vlastimil Kunc and R. Byron Pipes	2018	Additive Manufacturing 21 (2018) 1–16	mechanical modeling	mechanics	MODELING AND SIMULATION
2017	M47	Materials for additive manufacturing	David Bourell (2)a,*, Jean Pierre Kruth (1)b, Ming Leu (1)c, Gideon Levy (1)d, David Rosen e, Allison M. Beese f, Adam Clare g	2017	CIRP Annals - Manufacturing Technology 66 (2017) 659–681	Creation of new materials	mechanics	Properties of Materials
2019	M48	Interface and performance of 3D printed continuous carbon fiber reinforced PLA composites	Tian, X., Liu, T., Yang, C., Wang, Q., Li, D.	2016	Composites Part A: Applied Science and Manufacturing 88, pp. 198-205	Creation of new materials	mechanics, manufacturing	Additive
2019	M49	Single-layer temperature-adjusting transition method to improve the bond strength of 3D-printed PCL/PLA parts	Lin, W., Shen, H., Xu, G., (...), Fu, J., Deng, X.	2018	Composites Part A: Applied Science and Manufacturing 115, pp. 22-30	mechanical modeling	mechanics	temperature
2019	M50	3D printed, bio-inspired prototypes and analytical models for structured suture interfaces with geometrically-tuned deformation and failure behavior	Lin, E., Li, Y., Ortiz, C., Boyce, M.C.	2014	Journal of the Mechanics and Physics of Solids 73, pp. 166-182	mechanical modeling	mechanics	design and shapes
2019	M51	Biomimetic staggered composites with highly enhanced energy dissipation: Modeling, 3D printing, and testing	Zhang, P., Heyne, M.A., To, A.C.	2015	Journal of the Mechanics and Physics of Solids 83,2677, pp. 285-300	mechanical modeling	mechanics	multimaterial
2019	M52	Mechanical performance of additively-manufactured anisotropic and isotropic smooth shell-lattice materials: Simulations & experiments	Bonatti, C., Mohr, D.	2019	Journal of the Mechanics and Physics of Solids 122, pp. 1-26	mechanical modeling	mechanics	modeling and lattice experiments
2019	M53	Preparation and characterization of 3D printed continuous carbon fiber reinforced thermosetting composites	Hao, W., Liu, Y., Zhou, H., Chen, H., Fang, D.	2018	Polymer Testing 65, pp. 29-34	mechanical modeling	mechanics	Additive
2019	M54	FDM process parameters influence over the mechanical properties of polymer specimens: A review	Popescu, D., Zapciu, A., Amza, C., Baciu, F., Marinescu, R.	2018	Polymer Testing 69, pp. 157-166	mechanical modeling	mechanics	State of the art, mechanical characterization
2019	M55	Residual Stress in Metal Additive Manufacturing	Li, C., Liu, Z.Y., Fang, X.Y., Guo, Y.B.	2018	Procedia CIRP 71, pp. 348-353	mechanical modeling	mechanics	Residual efforts
2019	M55b	Review of the effect of built orientation on mechanical Properties of metal-plastic composite parts fabricated by Additive Manufacturing Technique	Swapnil Magara, Nitin K. Khedkarb, Satish Kumarc	2017	Materials Today: Proceedings 5 (2018) 3926–3935	mechanical modeling	mechanics	-
2019	M56	Evaluation and prediction of the tensile properties of continuous fiber-reinforced 3D printed structures	Melenka, G.W., Cheung, B.K.O., Schofield, J.S., Dawson, M.R., Carey, J.P.	2016	Composite Structures 153, pp. 866-875	mechanical modeling	mechanics	Additive
2019	M57	A review on additive manufacturing of polymer-fiber composites	Parandoush, P., Lin, D.	2017	Composite Structures 182, pp. 36-53	mechanical modeling	mechanics	Additive
2019	M58	Characterization of 3D printed long fibre reinforced composites	Justo, J., Távara, L., García-Guzmán, L., París, F.	2018	Composite Structures 185, pp. 537-548	mechanical modeling	mechanics	Additive
2019	M59	3D printed continuous fibre reinforced composite corrugated structure	Hou, Z., Tian, X., Zhang, J., Li, D.	2018	Composite Structures 184, pp. 1005-1010	mechanical modeling	mechanics	Additive
2019	M60	Orthotropic mechanical properties of fused deposition modelling parts described by classical laminate theory	Casavola, C., Cazzato, A., Moramarco, V., Pappalettere, C.	2016	Materials and Design 90, pp. 453-458	mechanical modeling	mechanics	The translated value of MODELO TEORICO Y EXPERIMENTOS in English is THEORETICAL MODEL AND EXPERIMENTS.
2019	M61	Characterization of mechanical properties and fracture mode of additively manufactured carbon fiber and glass fiber reinforced thermoplastics	Goh, G.D., Dikshit, V., Nagalingam, A.P., (...), Wei, J., Yeong, W.Y.	2018	Materials and Design 137, pp. 79-89	mechanical modeling	mechanics	Additive
2019	M62	Mechanical properties and deformation behavior of additively manufactured lattice structures of stainless steel	Köhnen, P., Haase, C., Bültmann, J., (...), Schleifenbaum, J.H., Bleck, W.	2018	Materials and Design 145, pp. 205-217	mechanical modeling	mechanics	Sure, I can help you with that. Here is the translation of LATICE into English: Lattice I have removed the quotation and double quotation marks from the translated value.
2019	M63	Tensile properties of multi-material interfaces in 3D printed parts	Lumpe, T.S., Mueller, J., Shea, K.	2019	Materials and Design 162, pp. 1-9	mechanical modeling	mechanics	multimaterial
2019	M64	Highly oriented carbon fiber-polymer composites via additive manufacturing	Tekinalp, H.L., Kunc, V., Velez-Garcia, G.M., (...), Blue, C.A., Ozcan, S.	2014	Composites Science and Technology 105, pp. 144-150	mechanical modeling	mechanics	Additive
2019	M65	3D-printed PEEK-carbon fiber (CF) composites: Structure and thermal properties	Stepashkin, Chukov, D.I., Senatov, F.S., (...), Korsunsky, A.M., Kaloshkin, S.D.	2018	Composites Science and Technology 164, pp. 319-326	mechanical modeling	mechanics	Additive
2019	M66	Rapid prototyping of continuous carbon fiber reinforced polylactic acid composites by 3D printing	Li, N., Li, Y., Liu, S.	2016	Journal of Materials Processing Technology 238, pp. 218-225	mechanical modeling	mechanics	Additive
2019	M67	Recycling and remanufacturing of 3D printed continuous carbon fiber reinforced PLA composites	Tian, X., Liu, T., Wang, Q., (...), Li, D., Ziegmann, G.	2017	Journal of Cleaner Production 142, pp. 1609-1618	mechanical modeling	mechanics	Additive
2019	M68	Additive manufacturing of carbon fiber reinforced thermoplastic composites using fused deposition modeling	Ning, F., Cong, W., Qiu, J., Wei, J., Wang, S.	2015	Composites Part B: Engineering 80, pp. 369-378	mechanical modeling	mechanics	Additive
2019	M69	3D printing of polymer matrix composites: A review and prospective	Wang, X., Jiang, M., Zhou, Z., Gou, J., Hui, D.	2017	Composites Part B: Engineering 110, pp. 442-458	mechanical modeling	mechanics, manufacturing	Additive
2019	M70	Impact damage resistance of 3D printed continuous fibre reinforced thermoplastic composites using fused deposition modelling	Caminero, M.A., Chacón, J.M., García-Moreno, I., Rodríguez, G.P.	2018	Composites Part B: Engineering 148, pp. 93-103	mechanical modeling	mechanics, manufacturing	Additive
2019	M71	Mechanical behaviour of ABS: An experimental study using FDM and injection moulding techniques	Dawoud, M., Taha, I., Ebeid, S.J.	2016	Journal of Manufacturing Processes	mechanical modeling	mechanics	Comparison processes
2019	M72	Mechanical performance of additively manufactured meta-biomaterials	Zadpoor, A.A.	2019	Acta Biomaterialia 85, pp. 41-59	mechanical modeling	mechanics	REVIEW, LATICE
2019	M73	Numerical investigation of the mechanical properties of the additive manufactured bone scaffolds fabricated by FDM: The effect of layer penetration and post-heating	Naghieh, S., Karamooz Ravari, M.R., Badrossamay, M., Foroozmehr, E., Kadkhodaei, M.	2016	Journal of the Mechanical Behavior of Biomedical Materials 59, pp. 241-250	mechanical modeling	mechanics, medicine	lattice
2019	M74	Selecting process parameters in RepRap additive manufacturing system for PLA scaffolds manufacture	De Ciurana, J., Serenó, L., Vallès, È.	2013	Procedia CIRP 5, pp. 152-157	mechanical modeling	mechanics, medicine, manufacturing	lattice
2019	M75	Characterizing the effect of additives to ABS on the mechanical property anisotropy of specimens fabricated by material extrusion 3D printing	Torrado, A.R., Shemelya, C.M., English, J.D., (...), Wicker, R.B., Roberson, D.A.	2015	Additive Manufacturing 6, pp. 16-29	mechanical modeling	mechanics	Additive
2019	M76	Comparison of stress concentrator fabrication for 3D printed polymeric izod impact test specimens	David A. Roberson and Angel R. Torrado Perez and Corey M. Shemelya and Armando Rivera and Eric MacDonald and Ryan B. Wicker	2015	Additive Manufacturing 7 (2015) 1–11	mechanical modeling	mechanics	multiprocessing
2019	M77	Fabrication of continuous carbon, glass and Kevlar fibre reinforced polymer composites using additive manufacturing	Andrew N. Dickson∗, James N. Barry, Kevin A. McDonnell, Denis P. Dowling	2017	Additive Manufacturing 16 (2017) 146–152	mechanical modeling	mechanics	Additive
2019	M78	A survey of finite element analysis of temperature and thermal stress fields in powder bed fusion Additive Manufacturing	Zhibo Luo and Yaoyao Zhao	2018	Additive Manufacturing 21 (2018) 318–332	mechanical modeling	mechanics	thermal efforts
2019	M79	Mechanical characterization of 3D-printed polymers	Dizon, J.R.C., Espera, A.H., Chen, Q., Advincula, R.C.	2018	Additive Manufacturing 20, pp. 44-67	mechanical modeling	mechanics	State of the art, mechanical characterization
2019	M80	An investigation into 3D printing of fibre reinforced thermoplastic composites	Blok, L.G., Longana, M.L., Yu, H., Woods, B.K.S.	2018	Additive Manufacturing 22, pp. 176-186	mechanical modeling	mechanics	Additive
2019	M81	Revealing mechanisms of residual stress development in additive manufacturing via digital image correlation	Bartlett, J.L., Croom, B.P., Burdick, J., Henkel, D., Li, X.	2018	Additive Manufacturing 22, pp. 1-12	mechanical modeling	mechanics	Residual efforts
2019	M82	Multi-material 3D printing: The relevance of materials affinity on the boundary interface performance	Lopes, L.R., Silva, A.F., Carneiro, O.S.	2018	Additive Manufacturing 23, pp. 45-52	mechanical modeling	mechanics	multimaterial
2019	M83	Mechanical properties of Sn63Pb37 components by fused coating technology	Zhao, G., Wei, Z., Du, J., Geng, R., Xu, S.	2018	Additive Manufacturing 22, pp. 388-393	mechanical modeling	mechanics	coating
2019	M84	Influence of printing parameters on the stability of deposited beads in fused filament fabrication of poly(lactic) acid	Bakrani Balani, S., Chabert, F., Nassiet, V., Cantarel, A.	2019	Additive Manufacturing 25, pp. 112-121	mechanical modeling	mechanics	Filament parameters
2019	M85	Interlayer fracture toughness of additively manufactured unreinforced and carbon-fiber-reinforced acrylonitrile butadiene styrene	Young, D., Wetmore, N., Czabaj, M.	2018	Additive Manufacturing 22, pp. 508-515	mechanical modeling	mechanics	Additive
2019	M86	Development and validation of extrusion deposition additive manufacturing process simulations	Brenken, B., Barocio, E., Favaloro, A., Kunc, V., Pipes, R.B.	2019	Additive Manufacturing 25, pp. 218-226	mechanical modeling	mechanics	simulation process and deformations
2019	M87	The influence of forced-air cooling on a 3D printed PLA part manufactured by fused filament fabrication	Lee, C.-Y., Liu, C.-Y.	2019	Additive Manufacturing 25, pp. 196-203	mechanical modeling	mechanics	cooling effect
2019	M88	Mechanical properties of hexagonal lattice structures fabricated using continuous liquid interface production additive manufacturing	McGregor, D.J., Tawfick, S., King, W.P.	2019	Additive Manufacturing 25, pp. 10-18	mechanical modeling	mechanics	Lattice
2019	M89	Experimental Study on Mechanical Properties of Single- and Dual-material 3D Printed Products	Kim, H., Park, E., Kim, S., (...), Kim, N., Lee, S.	2017	Procedia Manufacturing 10, pp. 887-897	mechanical modeling	mechanics	multimaterial
2019	M90	Mechanical strength of chunk-based printed parts for cooperative 3D printing	Poudel, L., Sha, Z., Zhou, W.	2018	Procedia Manufacturing 26, pp. 962-972	mechanical modeling	mechanics	Mechanical characterization
2019	M91	Biomimetic additive manufactured polymer composites for improved impact resistance	Gu, G.X., Takaffoli, M., Hsieh, A.J., Buehler, M.J.	2016	Extreme Mechanics Letters 9, pp. 317-323	mechanical modeling	mechanics	Additive
2019	M92	Strengthening in fracture toughness of a smart material manufactured by 3D printing	Lanzillotti, P., Gardan, J., Makke, A., Recho, N.	2018	IFAC-PapersOnLine 51(11), pp. 1353-1358	mechanical modeling	mechanics	OPTIMIZATION
2019	M93	Mechanical properties of 3D printed polymer specimens	V.D. Sagias and K.I. Giannakopoulos and C. Stergiou	2018	Procedia Structural Integrity	mechanical modeling	mechanics	Mechanical characterization
2019	M94	Mechanical characterization of parts fabricated using fused deposition modeling	Bellini, A., Güçeri, S.	2003	Rapid Prototyping Journal 9(4), pp. 252-264	mechanical modeling	mechanics	simulation
2019	M95	Improving the Impact Strength and Heat Resistance of 3D Printed Models: Structure, Property, and Processing Correlationships during Fused Deposition Modeling (FDM) of Poly(Lactic Acid)	Benwood, C., Anstey, A., Andrzejewski, J., Misra, M., Mohanty, A.K.	2018	ACS Omega 3(4), pp. 4400-4411	mechanical modeling	mechanics, manufacturing	multiprocessing
2019	M96	Effect of support on printed properties in fused deposition modelling processes	Jiang, J., Lou, J., Hu, G.	2019	Virtual and Physical Prototyping	mechanical modeling	mechanics, dimension	support effect
2019	M97	Experimental Investigations of Process Parameters Influence on Rheological Behavior and Dynamic Mechanical Properties of FDM Manufactured Parts	Mohamed, O.A., Masood, S.H., Bhowmik, J.L.	2016	Materials and Manufacturing Processes 31(15), pp. 1983-1994	mechanical modeling	mechanics	Mechanical characterization
2019	M98	Bonding quality and fracture analysis of polyamide 12 parts fabricated by fused deposition modeling	Li, H., Zhang, S., Yi, Z., (...), Guo, J., Xu, G.	2017	Rapid Prototyping Journal 23(6), pp. 973-982	mechanical modeling	mechanics	Mechanical characterization
2019	M99	Experimental characterization of the mechanical properties of 3D-printed ABS and polycarbonate parts	Cantrell, J.T., Rohde, S., Damiani, D., (...), Kroese, C., Ifju, P.G.	2017	Rapid Prototyping Journal 23(4), pp. 811-824	mechanical modeling	mechanics	Mechanical characterization
2019	M100	Investigating impact of five build parameters on the maximum flexural force in FDM specimens - A definitive screening design approach	Luzanin, O., Guduric, V., Ristic, I., Muhic, S.	2017	Rapid Prototyping Journal 23(6), pp. 1088-1098	mechanical modeling	mechanics	Mechanical characterization
2019	M101	Effect of layer orientation on mechanical properties of rapid prototyped samples	Es-Said, O.S., Foyos, J., Noorani, R., (...), Marloth, R., Pregger, B.A.	2000	Materials and Manufacturing Processes 15(1), pp. 107-122	mechanical modeling	mechanics	Mechanical characterization
2019	M102	State of the art of additive manufacturing: Review for tolerances, mechanical resistance and production costs	Fera, M., Fruggiero, F., Lambiase, A., Macchiaroli, R.	2016	Cogent Engineering 3(1), pp. 1261503	mechanical modeling	mechanics, dimension, cost	State of the art, mechanical characterization
2019	M103	Impact of fused deposition modeling (FDM) process parameters on strength of built parts using Taguchi’s design of experiments	Zaman, U.K., Boesch, E., Siadat, A., Rivette, M., Baqai, A.A.	2018	International Journal of Advanced Manufacturing Technology	mechanical modeling	mechanics	Mechanical characterization, time
2021	M104	3D Printing of Continuous Carbon Fibre Reinforced Thermo-Plastic ({CFRTP}) Tensile Test Specimens	Frank Van Der Klift and Yoichiro Koga and Akira Todoroki and Masahito Ueda and Yoshiyasu Hirano and Ryosuke Matsuzaki	2016	Journal Article published 2016 in Open Journal of Composite Materials volume 06 issue 01 on pages 18 to 27	mechanical modeling	mechanics	Mechanical characterization
2021	M105	Structural characteristics of fused deposition modeling polycarbonate material	Walter Castro Smith and Richard W. Dean	2013	Journal Article published Dec 2013 in Polymer Testing volume 32 issue 8 on pages 1306 to 1312	mechanical modeling	mechanics	Mechanical characterization
2021	M106	Additive manufacturing of {PLA} structures using fused deposition modelling: Effect of process parameters on mechanical properties and~their optimal selection	J.M. Chacón, M.A. Caminero, E. García-Plaza, P.J. Núñez	2017	Journal Article published Jun 2017 in Materials & Design volume 124 on pages 143 to 157	mechanical modeling/optimization	mechanics, optimization	Mechanical characterization, strength optimization, time optimization.
2021	M107	A study of creep in polycarbonate fused deposition modelling parts	Antonio G. Salazar-Martín and Marco A. Pérez and Andrés-Amador García-Granada and Guillermo Reyes and Josep M. Puigoriol-Forcada	2018	Materials & Design Volume 141, 5 March 2018, Pages 414-425	mechanical modeling	mechanics	Mechanical characterization
2021	M108	Evaluation of the influence of build and print orientations of unmanned aerial vehicle parts fabricated using fused deposition modeling process	Suraj Ravindrababu and Yunus Govdeli and Zhuo Wei Wong and Erdal Kayacan	2018	Journal of Manufacturing Processes Volume 34, Part A, August 2018, Pages 659-666	mechanical modeling	mechanics	Mechanical characterization
2021	M109	Quality improvement of FDM parts by parameter optimization	Knoop,F. and Kloke,A. and Schoeppner,V.	2017	AIP Conference Proceedings 1914, 190001 (2017);	mechanical modeling/optimization	mechanics, optimization	Mechanical characterization, strength optimization, time optimization.
2021	M110	A comprehensive review of selected biological armor systems – From structure-function to bio-mimetic techniques	Tu Van Le and Abdallah Ghazlan and Tuan Ngo and Tuan Nguyen and Alex Remennikov	2019	Composite Structures 225 (2019) 111172	mechanical modeling	mechanics	Structures in nature, literature review
2021	M111	Materials with enhanced adhesive properties based on acrylonitrile-butadiene-styrene (ABS)/thermoplastic polyurethane (TPU) blends for fused filament fabrication (FFF)	A.S. de León and A. Domínguez-Calvo and S.I. Molina	2019	Materials and Design 182 (2019) 108044	mechanical modeling	mechanics	Mechanical characterization, multimaterial
2021	M112	Ultimate Tensile Strength in Fused Deposition Modeling Considering Process Parameters of Flow Rate and Printing Head Speed	Tao Hou, Tingting Huang, Fuqiang Sun, Shanggang Wang	2018	Proceedings Article published Oct 2018 in 2018 12th International Conference on Reliability, Maintainability, and Safety (ICRMS)	mechanical modeling	mechanics	Mechanical characterization
2021	M113	An experimental study on interfacial fracture toughness of 3-D printed ABS/CF-PLA composite under mode I, II, and mixed-mode loading	Abdul Samad Khan and Aaqib Ali and Ghulam Hussain and Muhammad Ilyas	2019	Journal of Thermoplastic Composite Materials 1–24 2019	mechanical modeling	mechanics	Mechanical characterization
2021	M114	Mechanical properties of 3D parts fabricated by fused deposition modeling: Effect of various fillers in polylactide	Xia Gao and Daijun Zhang and Shunxin Qi and Xiangning Wen and Yunlan Su	2019	Journal Article published 15 Aug 2019 in Journal of Applied Polymer Science volume 136 issue 31 on page 47824	mechanical modeling	mechanics	Mechanical characterization, material additive, process chain
2021	M115	Experimental investigation on flexural properties of {FDM} processed Nylon 12 parts using {RSM}	Salam Nori Kamoona and Syed Hasan Masood and Omar Ahmed Mohamed	2018	Journal Article published Jun 2018 in IOP Conference Series: Materials Science and Engineering volume 377 on page 012137	mechanical modeling	mechanics	Mechanical characterization
2021	M116	MECHANICAL PROPERTIES OF PRODUCTS MADE OF ABS WITH RESPECT TO INDIVIDUALITY OF FDM PRODUCTION PROCESSES	Martin Seidl and Jiri Safka and Jiri Bobek and Lubos Behalek and Jiri Habr	2017	Journal Article published 8 Feb 2017 in MM Science Journal volume 2017 issue 01 on pages 1748 to 1751	mechanical modeling	mechanics	Mechanical characterization, printer comparison.
2021	M117	The influence of slicing parameters on the multi-material adhesion mechanisms of FDM printed parts: an exploratory study	Francesco Tamburrino and Serena Graziosi and Monica Bordegoni	2019	VIRTUAL AND PHYSICAL PROTOTYPING 2019, VOL. 14, NO. 4, 316–332	mechanical modeling	mechanics	Mechanical characterization, multimaterial
2021	M118	Design considerations and modeling of fiber reinforced 3D printed parts	Nekoda {van de Werken} and Joel Hurley and Pouria Khanbolouki and Ali N. Sarvestani and Ali Y. Tamijani and Mehran Tehrani	2019	Composites Part B: Engineering Volume 160, 1 March 2019, Pages 684-692	mechanical modeling	mechanics	Mechanical characterization, multimaterial
2021	M119	Selecting Process Parameters in {RepRap} Additive Manufacturing System for {PLA} Scaffolds Manufacture	Joaquim de Ciurana, Lídia Serenóa, Èlia Vallès	2013	Journal Article published 2013 in Procedia CIRP volume 5 on pages 152 to 157	mechanical modeling, medicine	mechanics, medicine	Mechanical characterization, scaffolding for tissue.
2021	M120	Comparison of Numerical Methods for Fluid-Structure Interaction Simulation of Fused Deposition Modeled Nylon Components	Sumair F. Sunny and Glenn H. Gleason and Arif S. Malik	2019	Journal Article published 2019 in Procedia Manufacturing volume 34 on pages 516 to 527	mechanical modeling, dimensional modeling	mechanics, dimension	MODELING AND SIMULATION
2021	M121	Advances in fused deposition modeling of discontinuous fiber/polymer composites	Chao Hu and Qing-Hua Qin	2020	Current Opinion in Solid State and Materials Science Volume 24, Issue 5, October 2020, 100867	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial
2021	M122	Additive manufacturing of mechanochromic polycaprolactone on entry-level systems	Gregory I. Peterson, Mete Yurtoglu, Michael B Larsen, Stephen L. Craig, Mark A. Ganter, Duane W. Storti, Andrew J. Boydston	2015	Journal Article published 17 Aug 2015 in Rapid Prototyping Journal volume 21 issue 5 on pages 520 to 527	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, electrical, chemical.
2021	M123	Effect of layer thickness on irreversible thermal expansion and interlayer strength in fused deposition modeling	Anthony A. D’Amico, Analise Debaie, Amy M. Peterson	2017	Journal Article published 22 Aug 2017 in Rapid Prototyping Journal volume 23 issue 5 on pages 943 to 953	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization
2021	M124	Investigation on the tribological behavior and wear mechanism of parts processed by fused deposition additive manufacturing process	Omar Ahmed Mohamed and Syed Hasan Masood and Jahar Lal Bhowmik and Anthony E. Somers	2017	Journal of Manufacturing Processes 29 (2017) 149–159	mechanical modeling	mechanics	Mechanical characterization, wear, friction
2021	M125	Analysis of wear behavior of additively manufactured PC-ABS parts	Omar Ahmed Mohamed and Syed Hasan Masood and Jahar Lal Bhowmik	2018	Materials Letters Volume 230, 1 November 2018, Pages 261-265	mechanical modeling	mechanics	Mechanical characterization, wear, friction
2021	M126	A study on extruded filament bonding in fused filament fabrication	Ana Elisa Costa and Alexandre Ferreira da Silva and Olga Sousa Carneiro	2019	Journal Article published 8 Apr 2019 in Rapid Prototyping Journal volume 25 issue 3 on pages 555 to 565	mechanical modeling	mechanics	Mechanical characterization
2021	M127	Anisotropic material properties of fused deposition modeling {ABS}	Sung‐Hoon Ahn, Michael Montero, Dan Odell, Shad Roundy, Paul K. Wright	2002	Journal Article published Oct 2002 in Rapid Prototyping Journal volume 8 issue 4 on pages 248 to 257	mechanical modeling	mechanics	Mechanical characterization
2021	M128	Mechanical properties of commercial rapid prototyping materials	Jaroslaw Kotlinski	2014	Journal Article published 20 Oct 2014 in Rapid Prototyping Journal volume 20 issue 6 on pages 499 to 510	mechanical modeling	mechanics	Mechanical characterization
2021	M129	CARACTERIZACIÓN DE MATERIALES TERMOPLÁSTICOS DE ABS Y PLA SEMI - RÍGIDO IMPRESOS EN 3D CON CINCO MALLADOS INTERNOS DIFERENTES	JAIME VINICIO MOLINA OSEJOS	2016	ESCUELA POLITÉCNICA NACIONAL, FACULTAD DE INGENIERÍA MECÁNICA (TESIS DE MAESTRIA)	mechanical modeling	mechanics	Mechanical characterization
2021	M130	Dimensional considerations on the mechanical properties of 3D printed polymer parts	Nabila Elmrabet and Petros Siegkas	2020	Polymer Testing Volume 90, October 2020, 106656	mechanical modeling	mechanics	Mechanical characterization
2021	M131	Comparison of tribological behavior of nylon aramid polymer composite fabricated by fused deposition modeling and injection molding process	J Nagendra, M S Ganesha Prasad, S Shashank, Syed Md. Ali	2018	Int. J. Mech. Mech. Eng. Technol Volume 9, Issue 13, December 2018	mechanical modeling	mechanics	Mechanical characterization
2021	M132	Tribological properties of 3D-printed pin with internal structure formation under dry sliding conditions	Tahir, Noor Ayuma Mat and Azmi, Muhamad Syafwan and Abdollah, Mohd Fadzli Bin and Ramli, Faiz Redza and Amiruddin, Hilmi and Tokoroyama, Takayuki and Umehara, Noritsugu	2018	Proceedings of Mechanical Engineering Research Day 2018, pp. 260-261, May 2018	mechanical modeling	mechanics	Mechanical characterization
2021	M133	Predicting strength of additively manufactured thermoplastic polymer parts produced using material extrusion	Joseph Bartolai and Timothy W. Simpson and Renxuan Xie	2018	Journal Article published 12 Mar 2018 in Rapid Prototyping Journal volume 24 issue 2 on pages 321 to 332	mechanical modeling, failure theory	mechanics	Mechanical characterization, simulation
2021	M134	Fused filament fabrication of polymer materials: A review of interlayer bond	Xia Gao and Shunxin Qi and Xiao Kuang and Yunlan Su and Jing Li and Dujin Wang	2021	Journal Article published 9 Apr 2018 in Rapid Prototyping Journal volume 24 issue 3 on pages 645 to 669	mechanical modeling	mechanics	Mechanical characterization, state of the art
2021	M135	A critical review on 3D printed continuous fiber-reinforced composites: History, mechanism, materials and properties	S M Fijul Kabir and Kavita Mathur and Abdel-Fattah M. Seyam	2020	Composite Structures Volume 232, 15 January 2020, 111476	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, process chain, multiprocess.
2021	M136	Friction and hardness characteristics of FDM-printed plastic materials	Sahar Zhiani Hervan Zeynep Parlar Vedat Temiz Atakan Altınkaynak	2018	21st International Research/Expert Conference ”Trends in the Development of Machinery and Associated Technology” TMT 2018, Karlovy Vary, Czech Republic, 18th – 22nd September, 2018	mechanical modeling	mechanics	Mechanical characterization
2021	M137	Anisotropic damage inferred to 3D printed polymers using fused deposition modelling and subject to severe compression	Sofiane Guessasma and Sofiane Belhabib and Hedi Nouri and Omar {Ben Hassana}	2016	European Polymer Journal Volume 85, December 2016, Pages 324-340	mechanical modeling	mechanics	Mechanical characterization, simulation
2021	M138	Comparision of tribological behaviour for parts fabricated through fused deposition modelling (FDM) process on abs and 20% carbon fibre PLA	R. Srinivasan and B. Suresh Babu and V. Udhaya Rani and M. Suganthi and R. Dheenasagar	2020	Materials Today: Proceedings, Volume 27, Part 2, 2020, Pages 1780-1786	mechanical modeling	mechanics	Mechanical characterization
2021	M139	Influential analysis of fused deposition modeling process parameters on the wear behaviour of ABS parts	R. Srinivasan and R. Rathish and P.R. Sivaraman and Adwaith Pramod and G. Shivaganesh	2020	Materials Today: Proceedings, Volume 27, Part 2, 2020, Pages 1869-1876	mechanical modeling	mechanics	Mechanical characterization
2021	M140	Influence of fused deposition modelling process parameters on wear strength of carbon fibre PLA	R. Srinivasan and N. Aravindkumar and S. {Aravind Krishna} and S. Aadhishwaran and John George	2020	Materials Today: Proceedings,Volume 27, Part 2, 2020, Pages 1794-1800	mechanical modeling	mechanics	Mechanical characterization
2021	M141	Influence of fused deposition modeling process parameters on the mechanical properties of PETG parts	R. Srinivasan and P. Prathap and Asrith Raj and S. {Aswinth Kannan} and V. Deepak	2020	Materials Today: Proceedings 27 (2020) 1877–1883	mechanical modeling	mechanics	Mechanical characterization
2021	M142	Characterization of process–deformation/damage property relationship of fused deposition modeling (FDM) 3D-printed specimens	Tomas {Webbe Kerekes} and Hyoungjun Lim and Woong Yeol Joe and Gun Jin Yun	2019	Additive Manufacturing 25 (2019) 532–544	mechanical modeling	mechanics	Mechanical characterization, simulation
2021	M143	Structural performance of 3D-printed composites under various loads and environmental conditions	Mohammad Reza Khosravani and Ali Zolfagharian and Matt Jennings and Tamara Reinicke	2020	Polymer Testing 91 (2020) 106770	mechanical modeling, failure theory	mechanics, failure theory	Mechanical characterization, failure theory
2021	M144	Analysis of the influence of the variables of the Fused Deposition Modeling (FDM) process on the mechanical properties of a carbon fiber-reinforced polyamide	Elena Verdejo de Toro, Juana Coello Sobrino, Alberto Matínez Martínez, Valentín Miguel Eguía	2019	Journal Article published 2019 in Procedia Manufacturing volume 41 on pages 731 to 738	mechanical modeling	mechanics	Mechanical characterization
2021	M145	A physical investigation of wear and thermal characteristics of 3D printed nylon spur gears	Ye Zhang and Chris Purssell and Ken Mao and Simon Leigh	2020	Tribology International Volume 141, January 2020, 105953	mechanical modeling, fatigue modeling	mechanics, fatigue	Mechanical characterization, fatigue in polymers
2021	M146	Mechanical structural design based on additive manufacturing and internal reinforcement	João Fiore Parreira Lovo and Italo Leite de Camargo and Luis Antonio Oliveira Araujo and Carlos Alberto Fortulan	2020	Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, volume 234, number 2, pages 417-426	mechanical modeling, manufacturing	mechanics, manufacturing	Mechanical characterization, process chain, multimaterial, multiprocess, simulation.
2021	M147	Joining of ABS parts built by material extrusion: Analysis of strength and fracture behavior	Bitthal Saraf and Ashu Garg and Suman Saurav and Anirban Bhattacharya	2020	CIRP Journal of Manufacturing Science and Technology	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, process chain, multiprocess.
2021	M148	Increased fracture toughness of additively manufactured semi-crystalline thermoplastics via thermal annealing	Kevin R. Hart and Ryan M. Dunn and Eric D. Wetzel	2020	Polymer Volume 211, 21 December 2020, 123091	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, process chain, multiprocess.
2021	M149	Interface geometries in 3D multi-material prints by fused filament fabrication	Micaela Ribeiro and Olga Sousa Carneiro and Alexandre Ferreira da Silva	2019	Rapid Prototyping Journal volume 25 issue 1 on pages 38 to 46	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, process chain, multiprocess.
2021	M150	Analysis of bonding methods for FDM-manufactured parts	Espalin, D and Arcaute, K and Anchondo, E and Adame, A and Medina, F and Winker, R and Hoppe, T and Wicker, R	2010	21st Annual International Solid Freeform Fabrication Symposium-An Additive Manufacturing Conference	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, process chain, multiprocess, glue.
2021	M151	Adhesive bonding of FDM-manufactured parts made of ULTEM 9085 considering surface treatment, surface structure, and joint design	Franziska Bürenhaus, Elmar Moritzer, André Hirsch	2019	Welding in the World volume 63 issue 6 on pages 1819 to 1832	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, process chain, multiprocess, glue.
2021	M152	Characterization of the Mechanical Properties of FFF Structures and Materials: A Review on the Experimental, Computational and Theoretical Approaches	Enrique Cuan-Urquizo, Eduardo Barocio, Viridiana Tejada-Ortigoza, R. Pipes, Ciro Rodriguez, Armando Roman-Flores	2019	Materials volume 12 issue 6 on page 895	mechanical modeling	mechanics	Mechanical characterization, state of the art
2021	M153	Failure Analysis and Mechanical Characterization of 3D Printed ABS With Respect to Layer Thickness and Orientation	Behzad Rankouhi, Sina Javadpour, Fereidoon Delfanian, Todd Letcher	2016	Journal of Failure Analysis and Prevention volume 16 issue 3 on pages 467 to 481	mechanical modeling, failure theory	mechanics	Mechanical characterization, failure theory
2021	M154	Fractographic analysis of tensile failure of acrylonitrile-butadiene-styrene fabricated by fused deposition modeling	Jaret C. Riddick and Mulugeta A. Haile and Ray Von Wahlde and Daniel P. Cole and Oluwakayode Bamiduro and Terrence E. Johnson	2016	Additive Manufacturing Volume 11, July 2016, Pages 49-59	mechanical modeling, failure theory	mechanics	Mechanical characterization, failure theory
2021	M155	Mechanical, thermal and melt flow of aluminum-reinforced PA6/ABS blend feedstock filament for fused deposition modeling	Rupinder Singh, Ranvijay Kumar, IPS Ahuja	2018	Rapid Prototyping Journal volume 24 issue 9 on pages 1455 to 1468	mechanical modeling	mechanics	Mechanical characterization, multimaterial, additive.
2021	M156	Investigations on 3D printed thermosetting and ceramic-reinforced recycled thermoplastic-based functional prototypes	Rupinder Singh, Ranvijay Kumar, Inderpreet Singh	2019	Journal of Thermoplastic Composite Materials on page 089270571986462	mechanical modeling	mechanics	Mechanical characterization, multimaterial, additive.
2021	M157	Mechanical and morphological investigations of 3D printed recycled ABS reinforced with bakelite–SiC–Al2O3	Rupinder Singh, Inderpreet Singh, Ranvijay Kumar	2019	Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science volume 233 issue 17 on pages 5933 to 5944	mechanical modeling	mechanics	Mechanical characterization, multimaterial, additive.
2021	M158	ESTUDIO EXPERIMENTAL Y OPTIMIZACIÓN DE JUNTAS PEGADAS DE PIEZAS IMPRESAS EN 3D, CON INTERFAZ DE SUPERFICIE ENTRELAZADA	ERWIN ALFREDO MOLINO ALVAREZ SERGIO ANDRES QUINTANA GONZALEZ	2019	UNIVERSIDAD DEL ATLÁNTICO FACULTAD DE INGENIERÍA PROGRAMA DE INGENIERÍA MECÁNICA	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, process chain, multiprocess, glue.
2021	M159	CARACTERIZACIÓN DE PROBETAS FABRICADAS CON POLICARBONATO POR EL MODELADO POR DEPOSICIÓN FUNDIDA (FDM)	CHRISTIAN GUTIÉRREZ VILLADIEGO, JOSÉ MARÚN ROCA	2020	UNIVERSIDAD DEL ATLÁNTICO FACULTAD DE INGENIERÍA PROGRAMA DE INGENIERÍA MECÁNICA	mechanical modeling	mechanics	Mechanical characterization
2021	M160	CARACTERIZACIÓN MECÁNICA DE PROBETAS DE POLIETILENO TEREPHTHALATE CON GLICOL IMPRESAS EN 3D MEDIANTE EL MÉTODO DE MODELADO POR DEPOSICIÓN FUNDIDA	DARIO LUIS CASTRO ESCORCIA, EDEL CASTAÑO LOPEZ	2021	UNIVERSIDAD DEL ATLÁNTICO FACULTAD DE INGENIERÍA PROGRAMA DE INGENIERÍA MECÁNICA	mechanical modeling	mechanics	Mechanical characterization
2021	M161	Caracterización mecánica de probetas fabricadas con Poliuretano termoplástico (TPU) por el proceso de Modelado de Deposición Fundida (FDM)	Martínez Pedraza Héctor Julio, Rizo Pacheco Adrian Josue	2021	UNIVERSIDAD DEL ATLÁNTICO FACULTAD DE INGENIERÍA PROGRAMA DE INGENIERÍA MECÁNICA	mechanical modeling	mechanics	Mechanical characterization
2021	M162	Experimental study of resin coating to improve the impact strength of fused filament fabrication process pieces	Luis Lisandro López Taborda, Eduar Pérez, Daniel Quintero, José Fernando Noguera Polania, Habib Zambrano Rodriguez, Heriberto Maury, Ivan E. Esparragoza	2021	Journal Article published 1 Mar 2021 in Rapid Prototyping Journal volume ahead-of-print issue ahead-of-print	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, process chain, multiprocess, resin.
2021	M163	Enhancing durability of 3D printed polymer structures by metallization	Arash Afshar and Dorina Mihut	2020	Journal of Materials Science & Technology 53 (2020) 185–191	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, process chain, multiprocess, metallization.
2021	M164	Mechanical evaluation of polymeric filaments and their corresponding 3D printed samples	A.M. Oviedo and A.H. Puente and C. Bernal and E. Pérez	2020	Polymer Testing 88 (2020) 106561	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial
2021	M165	Mechanical characterization of functionally graded materials produced by the fused filament fabrication process	Seymur Hasanov and Ankit Gupta and Aslan Nasirov and Ismail Fidan	2020	Journal of Manufacturing Processes 58 (2020) 923–935	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, simulation
2021	M166	Process-structure-property effects on ABS bond strength in fused filament fabrication	A.C. Abbott and G.P. Tandon and R.L. Bradford and H. Koerner and J.W. Baur	2018	Additive Manufacturing 19 (2018) 29–38	mechanical modeling	mechanics	Mechanical characterization
2021	M167	Nonisothermal welding in fused filament fabrication	Keith Coasey and Kevin R. Hart and Eric Wetzel and David Edwards and Michael E. Mackay	2020	Additive Manufacturing 33 (2020) 101140	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multiprocess, annealing, analytical modeling
2021	M168	Optimising Process Parameters of Fused Filament Fabrication to Achieve Optimum Tensile Strength	Nawaharsh Weake and Meena Pant and Ankita Sheroan and Abid Haleem and Harish Kumar	2020	Procedia Manufacturing 51 (2020) 704–709	mechanical modeling, Optimization	mechanics, optimization	Mechanical characterization, simulation, optimization
2021	M169	Anisotropic material properties of fused deposition modeling ABS	Sung-Hoon Ahn and Michael Montero and Dan Odell and Shad Roundy and Paul K. Wright	2002	Rapid Prototyping Journal	mechanical modeling	mechanics	Mechanical characterization
2021	M170	Fracture Surface Analysis of 3D-Printed Tensile Specimens of Novel ABS-Based Materials	Angel R. Torrado Perez, David A. Roberson, Ryan B. Wicker	2014	Journal of Failure Analysis and Prevention volume 14 issue 3 on pages 343 to 353	Mechanical modeling, Manufacturing process cases (general and specific)	mechanics, manufacturing	Mechanical characterization, multimaterial, simulation
2021	M171	Anisotropic Mechanical Properties of ABS Parts Fabricated by Fused Deposition Modelling	Constance Ziemian, Mala Sharma, Sophia Ziemi	2012	Book Chapter published 11 Apr 2012 in Mechanical Engineering	mechanical modeling	mechanics	Mechanical characterization
2021	M172	ABSplus-P430 PRODUCTION-GRADE THERMOPLASTIC FOR 3D PRINTERS	STRATASYS	2017		mechanical modeling	mechanics	Mechanical characterization
2021	M173	Polymer additive manufacturing of ABS structure: Influence of printing direction on mechanical properties	H. Ramezani Dana, F. Barbe, L. Delbreilh, M. Ben Azzouna, A. Guillet, T. Breteau	2019	Journal of Manufacturing Processes 44 (2019) 288–298	mechanical modeling	mechanics	Mechanical characterization
	M174	Improved design of fused deposition modeling equipment for 3D printing of high-performance PEEK parts	Bin Hu, Xianbao Duan, Zehua Xing, Ziyou Xu, Chun Du, Huamin Zhou, Rong Chen, Bin Shan	2019	Mechanics of Materials 137 (2019) 103139	mechanical modeling	mechanics	Mechanical characterization and simulation
	M175	Mechanical properties of fused filament fabricated PEEK for biomedical applications depending on additive manufacturing parameters	Yiqiao Wang, Wolf-Dieter Müller, Adam Rumjahn, Franziska Schmidt, Andreas Dominik Schwitalla	2021	journal of the mechanical behavior of biomedical materials 115 (2021) 104250	mechanical modeling	mechanics	Mechanical characterization
	M176	Screw extrusion-based additive manufacturing of PEEK	Jian-Wei Tseng, Chao-Yuan Liu, Yi-Kuang Yen, Johannes Belkner, Tobias Bremicker,Bernard Haochih Liu, Ta-Ju Sun, An-BangWang	2018	Materials and Design 140 (2018) 209–221	mechanical modeling	mechanics	Mechanical characterization
	M177	Performance of biocompatible PEEK processed by fused deposition additive manufacturing	M.F. Arif, S. Kumar, K.M. Varadarajan, W.J. Cantwell	2018	Materials and Design 146 (2018) 249–259	mechanical modeling	mechanics	Mechanical characterization
	M178	Effects of printing parameters of fused deposition modeling on mechanical properties, surface quality, and microstructure of PEEK	Peng Wang, Bin Zou, Hongchuan Xiao, Shouling Ding, Chuanzhen Huang	2019	Journal of Materials Processing Tech. 271 (2019) 62–74	mechanical modeling	mechanics	Mechanical characterization and simulation
	M179	3D printing of PEEK and its composite to increase biointerfaces as a biomedical material- A review	Bankole I. Oladapo, S. Abolfazl Zahedi, Sikiru O. Ismail, Francis T. Omigbodun	2021	Colloids and Surfaces B: Biointerfaces 203 (2021) 111726	mechanical modeling/ medical applications	mechanics / medicine	Mechanical characterization, state of the art, medical applications.
	M180	Additive layer manufacturing of poly (ether ether ketone) via FDM	Marianna Rinaldi, Tommaso Ghidini, Federico Cecchinia, Ana Brandao, Francesca Nannia	2018	Composites Part B 145 (2018) 162–172	mechanical modeling	mechanics	Mechanical characterization
2017	O1	An optimization approach for components built by fused deposition modeling with parametric internal structures	L. Villalpandoa, H. Eiliata, R. J. Urbanicb*	2014	Procedia CIRP 17 ( 2014 ) 800 – 805	optimization	optimization	Internal structure, mechanical property (AG)
2017	O2	Medial axis tree—an internal supporting structure for 3D printing	XiaolongZhanga,∗, YangXiaa,b,∗, JiayeWangc, ZhouwangYangd, ChangheTuc, WenpingWanga	2015	ComputerAidedGeometricDesign35–36(2015)149–162	optimization	optimization	Effort, weight
2017	O3	Optimization of fused deposition modeling process using teachinglearning- based optimization algorithm	R. Venkata Rao *, Dhiraj P. Rai	2016	Engineering Science and Technology, an International Journal 19 (2016) 587–603	optimization	optimization	mechanical resistance, dimensional precision, volumetric shrinkage (learning)
2017	O4	Optimization of fused deposition modeling process parameters for dimensional accuracy using I-optimality criterion	Omar Ahmed Mohamed a,⇑, Syed Hasan Masood a, Jahar Lal Bhowmik	2016	Measurement 81 (2016) 174–196	optimization	optimization	Dimensional precision (Optimal Criterion I)
2017	O5	Multi-criteriaselection of structural adhesives to bond ABS parts obtained by rapid prototyping	Jose´ M. Arenas n, CristinaAlı´a, FernandoBlaya,AlfredoSanz	2012	International Journal of Adhesion & Adhesives 33(2012)67–74	optimization	optimization	Ensemble with glue (AHP)
2017	O6	Orientation analysis of 3D objects toward minimal support volume in 3D-printing	Ben Ezair n, FadyMassarwi,GershonElber	2015	Computers &Graphics51(2015)117–124	optimization	optimization	volume piece and support depending on the orientation
2017	O7	Optimization of the printing parameters affecting dimensionalaccuracy and internal cavity for HIPS material used in fuseddeposition modeling processes	Mahdi Kaveh∗,1, Mohsen Badrossamay, Ehsan Foroozmehr, Ardeshir Hemasian Etefagh1	2015	Journal of Materials Processing Technology 226 (2015) 280–286	optimization	optimization	cavity accuracy
2017	O8	Slice coherence in a query-based architecture for 3D heterogeneous printing	Ulas Yamana,b,∗, Nabeel Butt a, Elisha Sacks a, Christoph Hoffmanna	2016	Computer-Aided Design 75–76 (2016) 27–38	optimization	optimization	Cells, time and material
2017	O9	Topology optimization for fused deposition modeling process	R. Rezaie, M. Badrossamay*, A. Ghaie, H. Moosavi	2013	Procedia CIRP 6 ( 2013 ) 521 – 526	optimization	optimization	topological
2017	O10	Printing 3D objects with interlocking parts	PengSonga,∗, ZhongqiFub, LigangLiub, Chi-WingFuc	2015	ComputerAidedGeometricDesign35–36(2015)137–148	optimization	optimization	Easily assemble, and rigid.
2017	O11	Modeling and evaluation of curved layer fused deposition	Sarat Singamnenia,∗, Asimava Roychoudhuryb, Olaf Diegela, Bin Huanga	2012	Journal of Materials Processing Technology 212 (2012) 27– 35	optimization	optimization	curved pieces
2017	O12	Real time adaptive slicing for fused deposition modelling	P.M. Pandey, N.V. Reddy ∗, S.G. Dhande 1	2003	International Journal of Machine Tools & Manufacture 43 (2003) 61–71	optimization	optimization	finished
2017	O13	A novel approach to improvemechanical properties of parts fabricated by fused deposition modeling	Jianlei Wang a,c, Hongmei Xie a, ZixiangWeng a,c, T. Senthil a, Lixin Wua,b,⁎	2016	Materials and Design 105 (2016) 152–159	optimization	optimization	Additive
2017	O14	Optimization of a heated platform based on statistical annealing of critical design parameters in a 3D printing application	Andrew Rictora, Bryan Rileyb, PhD0F*	2016	Procedia Computer Science 83 ( 2016 ) 712 – 716	optimization	optimization	Machine (economic data)
2017	O15	Optimum part deposition orientation in fused deposition modeling	K. Thrimurthulu a, Pulak M. Pandey b, N. Venkata Reddy a,	2004	International Journal of Machine Tools & Manufacture 44 (2004) 585–594	optimization	optimization	orientation
2017	O16	Mathematical modeling and FDM process parameters optimization using response surface methodology based on Q-optimal design	Omar Ahmed Mohamed a , ∗, Syed Hasan Masood a , JaharLal Bhowmik b	2016	Applied Mathematical Modelling 0 0 0 (2016) 1–22	optimization	optimization	flexion module, construction time
2017	O17	Comparative evaluation of optimization algorithms at training of genetic programming for tensile strength prediction of FDM processed part	Biranchi Narayan Panda, M. V. A Raju Bahubalendruni, bibhuti	2014	Procedia Materials Science 5 ( 2014 ) 2250 – 2257	optimization	optimization	tension resistance
2017	O18	Study of compression properties of topologically optimized FDM made structured parts	L.M. Galantucci (1)*, F. Lavecchia, G. Percoco	2008	CIRP Annals - Manufacturing Technology 57 (2008) 243–246	optimization	optimization	topological, compression
2017	O19	Integrated design of cellular composites using a level-set topology optimization method	Hao Lia,b, Zhen Luob, Nong Zhangb, Liang Gaoa,∗, Terry Brownb a	2016	Comput. Methods Appl. Mech. Engrg. 309 (2016) 453–475	optimization	optimization	cell phone, topology
2017	O20	Optimizing the rapid prototyping process by integrating the Taguchi method with the Gray relational analysis	Che Chung Wang, Ta‐Wei Lin, Shr‐Shiung Hu,	2007	Rapid Prototyping Journal, Vol. 13 Issue: 5,pp. 304-315,	optimization	optimization	Experimental optimization
2017	O21	Revolution of 3D printing technology and application of Six Sigma methodologies to optimize the output quality characteristics	Chen, J.C., Gabriel, V.S.	2016	Proceedings of the IEEE International Conference on Industrial Technology 2016-May,7474872, pp. 904-909	optimization	optimization	Experimental optimization/quality optimization/Six Sigma
2017	O22	Topology optimization and additive manufacturing: Comparison of conception methods using industrial codes	Saadlaoui, Y., Milan, J.-L., Rossi, J.-M., Chabrand, P.	2017	Journal of Manufacturing Systems 43, pp. 178-186	optimization	optimization	State of the art (commercial codes)
2017	O23	Studies on Optimizing Process Parameters of Fused Deposition Modelling Technology for ABS	Vishwas.M,a* Basavaraj.CKb	2017	Materials Today: Proceedings 4 (2017) 10994–11003	optimization	optimization	Experimental Optimization
2017	O24	Studies on Parametric Optimization for Fused Deposition Modelling Process	Vijay.B.Nidagundia*, R.Keshavamurthyb,C.P.S.Prakashc	2017	Materials Today: Proceedings 2 ( 2015 ) 1691 – 1699	optimization	optimization	Experimental Optimization
2017	O25	A case study on topology optimized design for additive manufacturing	A W Gebisa* and H G Lemu	2017	IOP Conference Series: Materials Science and Engineering, Volume 276, conference 1	optimization	optimization	TOPOLOGICAL OPTIMIZATION
2019	O26	Self-supporting structure design in additive manufacturing through explicit topology optimization ( de 97)	Xu Guo and Jianhua Zhou and Weisheng Zhang and Zongliang Du and Chang Liu and Ying Liu	2017	Comput. Methods Appl. Mech. Engrg. 323 (2017) 27–63	optimization	optimization	TOPOLOGICAL OPTIMIZATION
2019	O27	Topology optimization of self-supporting support structures for additive manufacturing	Francesco Mezzadri and Vladimir Bouriakov and Xiaoping Qian	2018	Additive Manufacturing 21 (2018) 666–682	optimization	optimization	TOPOLOGICAL OPTIMIZATION
2019	O28	Shape optimization of a layer by layer mechanical constraint for additive manufacturing	Gr{\'{e}}goire Allaire and Charles Dapogny and Alexis Faure and Georgios Michailidis	2017	C. R.Acad.Sci.Paris,Ser.I355(2017)699–717	optimization	optimization	TOPOLOGICAL OPTIMIZATION
2019	O29	Support structure design in additive manufacturing based on topology optimization	Kuo, Yu-Hsin and Cheng, Chih-Chun and Lin, Yang-Shan and San, Cheng-Hung	2018	Struct Multidisc Optim (2018) 57:183–195	optimization	optimization	TOPOLOGICAL OPTIMIZATION
2019	O30	Mechanical response of a triply periodic minimal surface cellular structures manufactured by selective laser melting	Yang, L., Yan, C., Han, C., (...), Yang, S., Shi, Y.	2018	International Journal of Mechanical Sciences 148, pp. 149-157	optimization	optimization	LATTICE, MECHANICS
2019	O31	3D printing assisted finite element analysis for optimising the manufacturing parameters of a lumbar fusion cage	Provaggi, E., Capelli, C., Rahmani, B., Burriesci, G., Kalaskar, D.M.	2019	Materials and Design 163,10754	optimization	optimization	LATTICE, MECHANICS
2019	O32	Insights into the mechanical properties of several triply periodic minimal surface lattice structures made by polymer additive manufacturing	Maskery, I., Sturm, L., Aremu, A.O., (...), Ashcroft, I.A., Hague, R.J.M.	2018	Polymer 152, pp. 62-71	optimization	optimization	LATTICE, MECHANICS
2019	O33	Topology optimization for functionally graded cellular composites with metamaterials by level sets	Li, H., Luo, Z., Gao, L., Walker, P.	2018	Computer Methods in Applied Mechanics and Engineering 328, pp. 340-364	optimization	optimization	TOPOLOGICAL, LATTICE, MECHANICS
2019	O34	Minimum compliance topology optimization of shell–infill composites for additive manufacturing	Wu, J., Clausen, A., Sigmund, O.	2017	Computer Methods in Applied Mechanics and Engineering 326, pp. 358-375	optimization	optimization	TOPOLOGICAL, LATTICE, MECHANICS
2019	O35	Topology optimization for multiscale design of porous composites with multi-domain microstructures	Gao, J., Luo, Z., Li, H., Gao, L.	2019	Computer Methods in Applied Mechanics and Engineering 344, pp. 451-476	optimization	optimization	TOPOLOGICAL, LATTICE, MECHANICS
2019	O36	Automatic reconstruction of beam structures from 3D topology optimization results	Nana, A., Cuillière, J.-C., Francois, V.	2017	Computers and Structures 189, pp. 62-82	optimization	optimization	Topology, Mechanics (NOT AM)
2019	O37	An overview of functionally graded additive manufacturing	Loh, G.H., Pei, E., Harrison, D., Monzón, M.D.	2018	Additive Manufacturing 23, pp. 34-44	optimization	optimization	Optimization of Mechanical Function (Porous)
2019	O38	Dynamic multiscale topology optimization for multi-regional micro-structured cellular composites	Gao, J., Luo, Z., Li, H., Li, P., Gao, L.	2019	Composite Structures 211, pp. 401-417	optimization	optimization	TOPOLOGICAL, LATTICE, MECHANICS
2019	O39	Exploiting Additive Manufacturing Infill in Topology Optimization for Improved Buckling Load	Clausen, A., Aage, N., Sigmund, O.	2016	Engineering 2(2), pp. 250-257	optimization	optimization	TOPOLOGICAL, MECHANICAL
2019	O40	Topology optimization for additive manufacturing using a component of a humanoid robot	Junk, S., Klerch, B., Nasdala, L., Hochberg, U.	2018	Procedia CIRP 70, pp. 102-107	optimization	optimization	TOPOLOGICAL
2019	O41	Direct Bio-printing with Heterogeneous Topology Design	Ahsan, A.M.M.N., Xie, R., Khoda, B.	2017	Procedia Manufacturing 10, pp. 945-956	optimization	optimization	Heterogeneous Topology
2019	O42	Multi-Objective Optimization of Additive Manufacturing Process	Asadollahi-Yazdi, E., Gardan, J., Lafon, P.	2018	IFAC-PapersOnLine 51(11), pp. 152-157	optimization	Methodology, surface, mechanics, optimization, manufacturing	Mechanical characterization, finish, manufacturability/manufacturing.
2021	O43	Integrated topology optimization of multi-component structures considering connecting interface behavior	Pai Liu and Zhan Kang	2018	Comput. Methods Appl. Mech. Engrg. 341 (2018) 851–887	optimization	-	Topological optimization, multimaterial
2021	O44	{OAPS}: An Optimization Algorithm for Part Separation in Assembly Design for Additive Manufacturing	Angshuman Deka, Sara Behdad	2018	Proceedings Article published 26 Aug 2018 in Volume 4: 23rd Design for Manufacturing and the Life Cycle Conference; 12th International Conference on Micro- and Nanosystems	optimization, Manufacturing process cases (general and specific)	optimization, manufacturing, assembly	ensemble, algorithm, manufacturing time optimization
2021	O45	Interactive Topology Optimization	Nobel-Jørgensen, Morten; Bærentzen, Jakob Andreas	2016	Technical University of Denmark Department of Applied Mathematics and Computer Science, DTU Compute PHD-2015, No. 375	optimization	optimization	Topological Optimization
2021	O45 A	TopOpt DTU	TOPOPT GROUP	2016, 2021	https://www.topopt.mek.dtu.dk/	optimization	optimization	Topological Optimization
2017	D1	DOE Based Parametric Study of Volumetric Change of FDM Parts	Pavan Kumar Gurrala*, Srinivasa Prakash Regalla	2014	Procedia Materials Science 6 ( 2014 ) 354 – 360	Dimensional modeling	dimension	deer
2017	D2	Design for manufacturing of surfaces to improve accuracy in Fused Deposition Modeling	Alberto Boschetto a,n, LuanaBottini a	2016	RoboticsandComputer-IntegratedManufacturing37(2016)103–114	Dimensional modeling	dimension	CNC code, dimensional, simulation, model correction
2017	D3	Analysis of dimensional performance for a 3D open-source printer based on fused deposition modeling technique	L. M. Galantuccia, I. Bodib,*, J. Kacanib, F. Lavecchiaa	2015	Procedia CIRP 28 ( 2015 ) 82 – 87	Dimensional modeling	dimension	deer
2017	D4	Dimensional tolerances for additive manufacturing: Experimental investigation for Fused Deposition Modeling	Tobias Lienekea,b, Vera Denzera*, Guido A. O. Adama,b, Detmar Zimmera	2016	Procedia CIRP 43 ( 2016 ) 286 – 291	Dimensional modeling	dimension	deer
2017	D5	Fast Deviation Simulation for 'Fused Deposition Modeling' process	Mahmood, Shahraina*, Talamona, Didierac, Goh, Kheng Lima, Qureshi, A.J.b	2016	Procedia CIRP 43 ( 2016 ) 327 – 332	Dimensional modeling	dimension	deer
2017	D6	Improving dimensional accuracy of Fused Deposition Modelling processed part using grey Taguchi method	Anoop Kumar Sood a, R.K. Ohdar b, S.S. Mahapatra c,*	2009	Materials and Design 30 (2009) 4243–4252	Dimensional modeling	dimension	deer
2017	D7	Benchmarking of FDM machines through part quality using IT grades	Paolo Minetolaa,*, Luca Iulianoa, Giovanni Marchiandia	2016	Procedia CIRP 41 ( 2016 ) 1027 – 1032	Dimensional modeling	dimension	Benchmarking
2017	D8	Effect of processing conditions on the bonding quality of FDM polymer filaments	Q. Sun, G.M. Rizvi, C.T. Bellehumeur, P. Gu,	2008	Rapid Prototyping Journal, Vol. 14 Issue: 2,pp. 72-80,	Dimensional modeling	dimension	modeling
2017	D9	Deviation Modeling and Shape transformation in Design for Additive Manufacturing	Zuowei Zhu and Nabil Anwer and Luc Mathieu	2017	Procedia CIRP 60 ( 2017 ) 211 – 216	Dimensional modeling	dimension	MODELING, simulation of deviations
2019	D10	Investigation of part distortions as a result of hybrid manufacturing	Zhu, Z., Dhokia, V., Nassehi, A., Newman, S.T.	2016	Robotics and Computer-Integrated Manufacturing 37,1348, pp. 23-32	Dimensional modeling	dimension	Hybrid processes, modeling, doe
2019	D11	In-situ observation and numerical simulation on the transient strain and distortion prediction during additive manufacturing	Xie, R., Chen, G., Zhao, Y., (...), Lin, X., Shi, Q.	2019	Journal of Manufacturing Processes 38, pp. 494-501	Dimensional modeling	dimension	MODELING, simulation of deviations
2019	D12	A challenge for enhancing the dimensional accuracy of a low-cost 3D printer by means of self-replicated parts	Minetola, P., Galati, M.	2018	Additive Manufacturing 22, pp. 256-264	Dimensional modeling	dimension	modeling, doe, process control
2019	D13	Dimensional and form errors of PC parts printed via Fused Deposition Modelling	Reyes-Rodríguez, A., Dorado-Vicente, R., Mayor-Vicario, R.	2017	Procedia Manufacturing 13, pp. 880-887	Dimensional modeling	dimension	modeling, doe
2019	D14	Dimensional accuracy of threads manufactured by fused deposition modeling	Tronvoll, S.A., Elverum, C.W., Welo, T.	2018	Procedia Manufacturing 26, pp. 763-773	Dimensional modeling	dimension	modeling, doe
2021	D15	Analysis of the factors affecting the dimensional accuracy of 3D printed products	Kushagra Tiwari and Santosh Kumar	2018	Journal Article published 2018 in Materials Today: Proceedings volume 5 issue 9 on pages 18674 to 18680	Dimensional modeling	dimension	modeling, doe
2021	D16	INTERNATIONAL STANDARD ISO 286-1. Geometrical product specifications(GPS) — ISO code system for toleranceson linear sizes —Part 1: Basis of tolerances, deviations and fits	INTERNATIONAL STANDARD ORGANIZATION-ISO	2010	https://www.iso.org/obp/ui/#iso:std:iso:286:-1:ed-2:v1:en	Dimensional modeling	dimension	norms
2021	D17	ESTUDIO EXPERIMENTAL PARA MEJORAR LA PRECISIÓN DIMENSIONAL Y SUPERFICIAL DE PIEZAS FABRICADAS MEDIANTE MODELADO POR DEPOSICIÓN FUNDIDA	JORGE ANDRÉS MARTÍNEZ MERCADO, DAVID ENRIQUE SEPÚLVEDA FLÓREZ	2021	UNIVERSIDAD DEL ATLÁNTICO, FACULTAD DE INGENIERÍA, PROGRAMA DE INGENIERÍA MECÁNICA	Dimensional modeling, surface modeling, manufacturing	dimension, surface, manufacturing	Tolerances, finishes, multimaterial, multiprocess, process chain.
2021	D18	Estudio Experimental De Los Procesos De Mecanizado Para Mejorar El Acabado Superficial y Tolerancias De Las Piezas Impresas En 3D	Alberto Enrique Alonso De la Hoz, Cristian Camilo Coronado Santiago	2021	UNIVERSIDAD DEL ATLÁNTICO, FACULTAD DE INGENIERÍA, PROGRAMA DE INGENIERÍA MECÁNICA	Dimensional modeling, surface modeling, manufacturing	dimension, surface, manufacturing	Tolerances, finishes, multimaterial, multiprocess, process chain, machining.
2021	D19	Accuracy prediction in fused deposition modeling	A. Boschetto & L. Bottini	2014	Int J Adv Manuf Technol (2014) 73:913–928	Dimensional modeling	dimension	tolerances
2021	D20	Research on the warping deformation in fused deposition modeling.	Xin Li, Zhuo Wang, Jianzhong Shang.	2016	Asian Journal of Research in Chemistry and Pharmaceutical Sciences, 2016, 4(1): 21–30.	Dimensional modeling	dimension	tolerances
2017	S1	Representation of surface roughness in fused deposition modeling	Daekeon Ahna,∗, Jin-Hwe Kweona, Soonman Kwonb, Jungil Songb, Seokhee Leec	2009	Journal of Materials Processing Technology 209 (2009) 5593–5600	surface modeling	surface	Characterization, simulation or analytical model of roughness
2017	S2	Quantitative analysis of surface profile in fused deposition modelling	Yu-an Jina,c, Hui Lib, Yong Hea,c,∗, Jian-zhong Fua,	2015	Additive Manufacturing 8 (2015) 142–148	surface modeling	surface	Characterization, simulation or analytical model of deviation per unit area
2017	S3	Experimental study aiming to enhance the surface finish of fused deposition modeled parts	L.M. Galantucci (1)*, F. Lavecchia, G. Percoco	2009	CIRP Annals - Manufacturing Technology 58 (2009) 189–192	surface modeling, manufacturing	surface, manufacturing	Chemical attack, multiprocess, process chain
2017	S4	Dimensional and surface texture characterization in Fused Deposition Modelling (FDM) with ABS plus	P.J. Nuñeza,*, A. Rivasa, E. García-Plazaa, E. Beamudb, A. Sanz-Loberac	2015	Procedia Engineering 132 ( 2015 ) 856 – 863	surface modeling	surface	finished and dimensional precision
2017	S5	Roughness prediction in coupled operations of fused depositionmodeling and barrel finishing	Alberto Boschetto∗, Luana Bottini	2015	Journal of Materials Processing Technology 219 (2015) 181–192	surface modeling, manufacturing	surface, manufacturing	Experimental characterization and analytical simulation of drilling, process chain, multiprocess.
2017	S6	Finishing of Fused Deposition Modeling parts by CNC machining	Alberto Boschetto,LuanaBottini n, FrancescoVeniali	2016	Robotics and Computer-Integrated Manufacturing 41(2016)92–101	surface modeling, manufacturing	surface, manufacturing	Experimental characterization and analytical simulation of CNC milling, process chain, multiprocess.
2017	S7	Improvement of surface finish by staircase machining in fused deposition modeling	Pulak M. Pandey, N. Venkata Reddy, Sanjay G. Dhande	2003	Journal of Materials Processing Technology 132(1-3), pp. 323-331	surface modeling, manufacturing	surface, manufacturing	hot modeling and machining, process chain, multiprocess
2017	S8	Integration of FDM surface quality modeling with process	Alberto Boschetto, Luana Bottini∗, Francesco Veniali	2016	Additive Manufacturing 12, pp. 334-344	surface modeling	surface	Characterization and modeling
2017	S9	Surface improvement of fused deposition modeling parts by barrel finishing	Alberto Boschetto, Luana Bottini	2015	Rapid Prototyping Journal, Vol. 21 Issue: 6,pp. 686-696,	surface modeling, manufacturing	surface, manufacturing	Modeling and drilling, process chain, multiprocess
2017	S10	Investigations for improving the surface finish of FDM based ABS replicas by chemical vapor smoothing process: a case study	Jaspreet Singh, Rupinder Singh, Harwinder Singh	2017	Assembly Automation, Vol. 37 Issue: 1,pp. 13-21	surface modeling, manufacturing	surface, manufacturing	Modeling and steam bath, process chain, multiprocess.
2017	S11	Pre and post processing techniques to improve surface characteristics of FDM parts: a state of art review and future applications	Jasgurpreet Singh Chohan, Rupinder Singh,	2017	Rapid Prototyping Journal 23(3), pp. 495-513	surface modeling, manufacturing	surface, manufacturing	State of the art (pre and post processed FDM surface), process chain, multiprocess.
2017	S12	Surface texture metrology for metal additive manufacturing: a review	Townsend, A., Senin, N., Blunt, L., Leach, R.K., Taylor, J.S.	2016	Precision Engineering 46, pp. 34-47	surface modeling	surface	State of the art (finished in metal)
2017	S13	Machining of Additively Manufactured Parts: Implications for Surface Integrity	Olusola Oyelola and Peter Crawforth and Rachid M{\textquotesingle}Saoubi and Adam T. Clare	2016	Procedia CIRP 45 ( 2016 ) 119 – 122	surface modeling	surface	modeling and machining
2019	S14	Modeling of the chemical finishing process for polylactic acid parts in fused deposition modeling and investigation of its tensile properties	Jin, Y., Wan, Y., Zhang, B., Liu, Z.	2017	Journal of Materials Processing Technology 240, pp. 233-239	surface modeling, manufacturing	surface, manufacturing	Chemical attack, multiprocess, process chain
2019	S15	Optimizing Surface texture and coating thickness of nickel coated ABS-3D parts	Khan, M.S., Mishra, S.B., Kumar, M.A., Banerjee, D.	2018	Materials Today: Proceedings 5(9), pp. 19011-19018	surface modeling, manufacturing	surface, manufacturing	Coated, process chain
2021	S16	Analysis of the influence of chemical treatment to the strength and surface roughness of {FDM}	R. H. Hambali and K. M. Cheong and N. Azizan	2017	Journal Article published Jun 2017 in IOP Conference Series: Materials Science and Engineering volume 210 on page 012063	Mechanical modeling, surface modeling, Cases of manufacturing processes (general and specific)	mechanics, surface, manufacturing	Mechanical characterization, chemical attack, process chain.
2021	S17	Hybrid estimation of surface roughness distribution in FDMparts using analytical modeling and empirical investigation	Vahabli, E. and Rahmati, S.	2017	The International Journal of Advanced Manufacturing Technology, Vol. 88 Nos 5/8, pp. 2287-2303.	surface modeling	surface	Surface modeling
2021	S18	Modelling micro geometrical profiles in fused deposition process	A. Boschetto & V. Giordano & F. Veniali	2012	Int J Adv Manuf Technol (2012) 61:945–956	surface modeling	surface	Surface modeling
2021	S19	Surface roughness prediction in fused deposition modelling by neural networks	A. Boschetto & V. Giordano & F. Veniali	2013	Int J Adv Manuf Technol (2013) 67:2727–2742	surface modeling	surface	Surface modeling
2017	F1	A new part consolidation method to embrace the design freedom of additive manufacturing	Sheng Yang, Yunlong Tang, Yaoyao Fiona Zhao∗	2015	Journal of Manufacturing Processes 20 (2015) 444–449	Cases of manufacturing processes (general and specific)	Manufacturing	DFAM
2017	F2	Design for Additive Manufacturing – Supporting the Substitution of Components in Series Products	Christoph Klahn*, Bastian Leutenecker, Mirko Meboldt	2014	Procedia CIRP 21 ( 2014 ) 138 – 143	Cases of manufacturing processes (general and specific)	Manufacturing	DFAM
2017	F3	Design Strategies for the Process of Additive Manufacturing	Christoph Klahna*, Bastian Leuteneckerb, Mirko Meboldtb	2015	Procedia CIRP 36 ( 2015 ) 230 – 235	Cases of manufacturing processes (general and specific)	Manufacturing	DFAM
2017	F4	Fluid-based removal of inner support structures manufactured by fused deposition modeling: an investigation on factors of influence	Mario Lusic,*, Frank Feuersteina, Driton Morinaa, Rüdiger Hornfecka	2016	Procedia CIRP 41 ( 2016 ) 1033 – 1038	Cases of manufacturing processes (general and specific)	Manufacturing	support removal
2017	F5	Component Replication using 3D Printing Technology	Dr. B.Satyanarayanaa*, Kode Jaya Prakashb	2015	Procedia Materials Science 10 ( 2015 ) 263 – 269	Cases of manufacturing processes (general and specific)	Manufacturing	reverse engineering
2017	F6	Manufacturing of PMMA Cam Shaft by Rapid Prototyping	Jaiganesh .V*, Andrew anthony christopher 1, Mugilan E2	2014	Procedia Engineering 97 ( 2014 ) 2127 – 2135	Cases of manufacturing processes (general and specific)	Manufacturing	Case study: crankshaft
2017	F7	3D printed wind turbines part 1: Design considerations and rapid manufacture potential	K. Bassett ⇑, R. Carriveau, D.S.-K. Ting	2015	Sustainable Energy Technologies and Assessments 11 (2015) 186–193	Cases of manufacturing processes (general and specific)	Manufacturing	Case study: wind turbine
2017	F8	3D Printing, a Maturing Technology	Karel Brans	2013	11th IFAC Workshop on Intelligent Manufacturing Systems The International Federation of Automatic Control May 22-24, 2013. São Paulo, Brazil	Cases of manufacturing processes (general and specific)	Manufacturing	Advantages, disadvantages and information management software.
2017	F9	A critical review of the use of 3-D printing in the construction industry	Peng Wua,⁎,1, JunWangb, XiangyuWangb	2016	Automation in Construction 68 (2016) 21–31	Cases of manufacturing processes (general and specific)	Manufacturing	The state of the art construction.
2017	F10	Development of a mobile fused deposition modeling system with enhanced manufacturing flexibility	Jae-Won Choia,b, Francisco Medinaa,b, Chiyen Kima, David Espalina,b, David Rodrigueza,b, Brent Stuckerc, Ryan Wickera,b,∗	2011	Journal of Materials Processing Technology 211 (2011) 424–432	Cases of manufacturing processes (general and specific)	Manufacturing	Mobile printing system (remote)
2017	F11	The potential to enhance membrane module design with 3D printing technology	Jian-YuanLee a,b,c,1, WenSeeTan a,b,c,1, JiaAn c, CheeKaiChua c, ChuyangY.Tang d, AnthonyG.Fane b,e, TzyyHaurChong b,e,n	2016	Journal ofMembraneScience499(2016)480–490	Cases of manufacturing processes (general and specific)	Manufacturing	membrane
2017	F12	Large-scale 3D printing of ultra-high performance concrete – a new processing route for architects and builders	C. Gosselin a,b, R. Duballet a,b, Ph. Roux a,b, N. Gaudillière a,b, J. Dirrenberger a,c,⁎, Ph. Morel a,d,b	2016	Materials and Design 100 (2016) 102–109	Cases of manufacturing processes (general and specific)	Manufacturing	construction (concrete)
2017	F13	MASK-DIRECTED MICRO-3D PRINTING	Derek S. Hernandez, Jason B. Shear	2014	capitulo de libro	Cases of manufacturing processes (general and specific)	Manufacturing	microprinting
2017	F14	Modelling curved-layered printing paths for fabricating large-scaleconstruction components	Sungwoo Lima,∗, Richard A. Buswellb, Philip J. Valentinec, Daniel Pikerd,Simon A. Austinb, Xavier De Kestelierd	2016	Additive Manufacturing 12, pp. 216-230	Cases of manufacturing processes (general and specific)	Manufacturing	construction
2017	F15	Investigation of the effect of built orientation on mechanical properties and total cost of FDM parts	Sandeep Rauta,VijayKumar S. Jattib,*, Nitin K. Khedkarc,T.P.Singhd	2014	Procedia Materials Science 6 ( 2014 ) 1625 – 1630	Cases of manufacturing processes (general and specific)	Manufacturing	orientation and cost
2017	F16	An improved fused deposition modeling process for forminglarge-size thin-walled parts	Du Jun∗, Wei Zhengying, Wang Xin, Wang Jijie, Chen Zhen	2016	Journal of Materials Processing Technology 234 (2016) 332–341	Cases of manufacturing processes (general and specific)	Manufacturing	Thin wall
2017	F17	INTRODUCTION OF A DESIGN FOR RAPID MANUFACTURING (DFRM) PERSPECTIVE IN ENGINEERING DESIGN EDUCATION	Sandor Campos, Javier Munguía and Joaquim Lloveras	2007	INTERNATIONAL CONFERENCE ON ENGINEERING AND PRODUCT DESIGN EDUCATION 13-14 SEPTEMBER 2007, NORTHUMBRIA UNIVERSITY, NEWCASTLE UPON TYNE, UNITED KINGDOM	Cases of manufacturing processes (general and specific)	Manufacturing	engineering design study
2017	F18	Pursuing successful rapid manufacturing: a users' best-practices approach	Javier Munguía Joaquim de Ciurana Carles Riba	2008	Rapid Prototyping Journal, Vol. 14 Iss 3 pp. 173 - 179	Cases of manufacturing processes (general and specific)	Manufacturing	design rules
2017	F19	Requirements for the Design of flexible and changeable Manufacturing and Assembly Systems: a SME-survey	Pasquale Russo Spenaa, Philipp Holznera*, Erwin Raucha, Renato Vidonia, Dominik T. Matt	2016	Procedia CIRP 41 ( 2016 ) 207 – 212	Cases of manufacturing processes (general and specific)	Manufacturing	manufacturing system design
2017	F20	Designing a Modular Rapid Manufacturing Process	Jacquelyn K. S. Nagel, Frank W. Liou	2010	Journal of Manufacturing Science and Engineering, DECEMBER 2010, Vol. 132	Cases of manufacturing processes (general and specific)	Manufacturing	manufacturing system design/design rules
2017	F21	Fused deposition modelling based rapid patterns for investment casting applications: a review	Sunpreet Singh, Rupinder Singh	2016	Rapid Prototyping Journal 22(1), pp. 123-143	Cases of manufacturing processes (general and specific)	Manufacturing	State of the art (casting)/design rule
2017	F22	Investigations for statistically controlled investment casting solution of FDM-based ABS replicas	Rupinder Singh, Gurwinder Singh	2014	Rapid Prototyping Journal, Vol. 20 Issue: 3,pp. 215-220	Cases of manufacturing processes (general and specific)	Manufacturing	casting/design rule
2017	F23	Development of rapid tooling using fused deposition modeling: a review	Kamaljit Singh Boparai, Rupinder Singh, Harwinder Singh,	2016	Rapid Prototyping Journal, Vol. 22 Issue: 2,pp. 281-299	Cases of manufacturing processes (general and specific)	Manufacturing	State of the art (RT)/design rule
2017	F24	Study of the complementary usages of selective laser sintering during the high volume production of plastic parts	Tomaz Brajlih, Matej Paulic, Tomaz Irgolic, Ziga Kadivnik, Joze Balic, Igor Drstvensek	2016	Rapid Prototyping Journal 22(4), pp. 735-742	Cases of manufacturing processes (general and specific)	Manufacturing	high production/design rule
2017	F25	Options for additive rapid prototyping methods (3D printing) in MEMS technology	Victor A. Lifton, Gregory Lifton, Steve Simon,	2014	Rapid Prototyping Journal, Vol. 20 Issue: 5,pp. 403-412	Cases of manufacturing processes (general and specific)	Manufacturing	State of the art (MEMS)/design rule
2017	F26	A review of melt extrusion additive manufacturing processes: I. Process design and modeling	Turner, B.N., Strong, R., Gold, S.A.	2014	Rapid Prototyping Journal 20(3),17111231, pp. 192-204	Cases of manufacturing processes (general and specific)	Manufacturing	State of the art (melt AM)/design rule
2017	F27	A review of melt extrusion additive manufacturing processes: II. Materials, dimensional accuracy, and surface roughness	Brian N. Turner, Scott A Gold,	2015	Rapid Prototyping Journal, Vol. 21 Issue: 3,pp. 250-261	Cases of manufacturing processes (general and specific)	Manufacturing	State of the art (melt AM)/design rule
2017	F28	Some investigations for small-sized product fabrication with FDM for plastic components	Rupinder Singh	2013	Rapid Prototyping Journal, Vol. 19 Issue: 1,pp. 58-63,	Cases of manufacturing processes (general and specific)	Manufacturing	small batch production
2017	F29	Implementation of rapid manufacturing for mass customisation	Dominik Deradjat, Tim Minshall	2017	Journal of Manufacturing Technology Management, Vol. 28 Issue: 1,pp. 95-121	Cases of manufacturing processes (general and specific)	Manufacturing	State of the art (Customization/mass production)
2017	F30	Integrating stereolithography and direct print technologies for 3D structural electronics fabrication	Amit Joe Lopes, Eric MacDonald, Ryan B. Wicker,	2012	Rapid Prototyping Journal, Vol. 18 Issue: 2,pp. 129-143	Cases of manufacturing processes (general and specific)	Manufacturing	MEMS
2017	F31	Flow-based fabrication: An integrated computational workflow for design and digital additive manufacturing of multifunctional heterogeneously structured objects	Duro-Royo, J., Mogas-Soldevila, L., Oxman, N.	2015	CAD Computer Aided Design 69, pp. 143-154	Cases of manufacturing processes (general and specific)	Manufacturing	Design and manufacture of multifunctional structure
2017	F32	Web-based rapid prototyping and manufacturing systems: A review	Lan, H.	2009	Computers in Industry 60(9), pp. 643-656	Cases of production and manufacturing processes (general and specific)	Manufacturing	State of the art (web-based manufacturing systems)
2017	F33	Composites Part Production with Additive Manufacturing Technologies	Daniel-Alexander Türk and Ralph Kussmaul and Markus Zogg and Christoph Klahn and Bastian Leutenecker-Twelsiek and Mirko Meboldt	2017	Procedia CIRP 66 ( 2017 ) 306 – 311	Cases of production and manufacturing processes (general and specific)	Manufacturing	Manufacturing of composite with AM
2019	F34	Enhancement of surface reflectivity of fused deposition modeling parts by post-processing	Chen, Y.-F., Wang, Y.-H., Tsai, J.-C.	2019	Optics Communications 430, pp. 479-485	Cases of production and manufacturing processes (general and specific)	Manufacturing	Optics, multiprocessing
2019	F35	Additive manufacturing of biomaterials	Bose, S., Ke, D., Sahasrabudhe, H., Bandyopadhyay, A.	2018	Progress in Materials Science 93, pp. 45-111	Cases of production and manufacturing processes (general and specific)	Manufacturing	Biomaterials, multimaterials
2019	F36	3D-printed steel reinforcement for digital concrete construction – Manufacture, mechanical properties and bond behaviour	Mechtcherine, V., Grafe, J., Nerella, V.N., (...), Hertel, M., Füssel, U.	2018	Construction and Building Materials 179, pp. 125-137	Cases of production and manufacturing processes (general and specific)	Manufacturing	construction, multimaterial
2019	F37	Hybrid additive manufacturing technologies - An analysis regarding potentials and applications	Merklein, M., Junker, D., Schaub, A., Neubauer, F.	2016	Physics Procedia 83, pp. 549-559	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, hybrid
2019	F38	Developments in construction-scale additive manufacturing processes	Lim, S., Buswell, R.A., Le, T.T., (...), Gibb, A.G.F., Thorpe, T.	2012	Automation in Construction 21(1), pp. 262-268	Cases of production and manufacturing processes (general and specific)	Manufacturing	construction
2019	F39	Classification of building systems for concrete 3D printing	Duballet, R., Baverel, O., Dirrenberger, J.	2017	Automation in Construction 83, pp. 247-258	Cases of production and manufacturing processes (general and specific)	Manufacturing	construction
2019	F40	Applications of additive manufacturing in the construction industry – A forward-looking review	Delgado Camacho, D., Clayton, P., O'Brien, W.J., (...), Ferron, R., Salamone, S.	2018	Automation in Construction 89, pp. 110-119	Cases of production and manufacturing processes (general and specific)	Manufacturing	construction
2019	F41	The utilization of selective laser melting technology on heat transfer devices for thermal energy conversion applications: A review	Jafari, D., Wits, W.W.	2018	Renewable and Sustainable Energy Reviews 91, pp. 420-442	Cases of production and manufacturing processes (general and specific)	Manufacturing	Termofluids, electricity generation
2019	F42	3D printing for rapid sand casting—A review	Upadhyay, M., Sivarupan, T., El Mansori, M.	2017	Journal of Manufacturing Processes 29, pp. 211-220	Cases of production and manufacturing processes (general and specific)	Manufacturing	casting
2019	F43	Development and surface improvement of FDM pattern based investment casting of biomedical implants: A state of art review	Singh, D., Singh, R., Boparai, K.S.	2018	Journal of Manufacturing Processes 31, pp. 80-95	Cases of production and manufacturing processes (general and specific)	Manufacturing	medical, casting
2019	F44	A novel 6-axis hybrid additive-subtractive manufacturing process: Design and case studies	Li, L., Haghighi, A., Yang, Y.	2018	Journal of Manufacturing Processes 33, pp. 150-160	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, hybrid
2019	F45 ( 327)	Criteria selection for a comparative study of functional performance of Fused Deposition Modelling and Vacuum Casting processes	Valerga Puerta, A.P., Sanchez, D.M., Batista, M., Salguero, J.	2018	Journal of Manufacturing Processes 35, pp. 721-727	Cases of production and manufacturing processes (general and specific)	Manufacturing	Multi-criteria function, process comparison.
2019	F46	Correlations between Influencing Parameters and Quality Properties of Components Produced by Fused Deposition Modeling	Bähr, F., Westkämper, E.	2018	Procedia CIRP 72, pp. 1214-1219	Cases of production and manufacturing processes (general and specific)	Manufacturing, design process, dimension	Design rule, tolerance
2019	F47	Design, Development and Experimental Investigation of E-jet Based Additive Manufacturing Process	Kumar Ball, A., Das, R., Das, D., Shekhar Roy, S., Murmu, N.C.	2018	Materials Today: Proceedings 5(2), pp. 7355-7362	Cases of production and manufacturing processes (general and specific)	Manufacturing	Design rule, limitations, advantages
2019	F48	Additive Manufacturing Techniques in Manufacturing -An Overview	Prakash, K.S., Nancharaih, T., Rao, V.V.S.	2018	Materials Today: Proceedings 5(2), pp. 3873-3882	Cases of production and manufacturing processes (general and specific)	Manufacturing	technological review
2019	F49	A Review on Transition in the Manufacturing of Mechanical Components from Conventional Techniques to Rapid Casting Using Rapid Prototyping	Thomas, P.A., Aahlada, P.K., Kiran, N.S., Ivvala, J.	2018	Materials Today: Proceedings 5(5), pp. 11990-12002	Cases of production and manufacturing processes (general and specific)	Manufacturing	Comparison processes, casting
2019	F50	Hybrid manufacturing – integrating traditional manufacturers with additive manufacturing (AM) supply chain	Strong, D., Kay, M., Conner, B., Wakefield, T., Manogharan, G.	2018	Additive Manufacturing 21, pp. 159-173	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, hybrid
2019	F51	Invited review article: Strategies and processes for high quality wire arc additive manufacturing	Cunningham, C.R., Flynn, J.M., Shokrani, A., Dhokia, V., Newman, S.T.	2018	Additive Manufacturing 22, pp. 672-686	Cases of production and manufacturing processes (general and specific)	Manufacturing	Design rules, process design, limitations
2019	F52	3D printing trends in building and construction industry: a review	Tay, Y.W.D., Panda, B., Paul, S.C., (...), Tan, M.J., Leong, K.F.	2017	Virtual and Physical Prototyping 12(3), pp. 261-276	Cases of production and manufacturing processes (general and specific)	Manufacturing	construction
2019	F53	Assessment of mechanical properties of Ni-coated ABS plastics using FDM process	Kannan, S., Senthilkumaran, D.	2014	International Journal of Mechanical and Mechatronics Engineering 14(3), pp. 30-35	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, hybrid
2019	F54	Additive construction: State-of-the-art, challenges and opportunities	Labonnote, N., Rønnquist, A., Manum, B., Rüther, P.	2016	Automation in Construction 72, pp. 347-366	Cases of production and manufacturing processes (general and specific)	Manufacturing	construction
2019	F55	The development of a rapid prototyping prosthetic socket coated with a resin layer for transtibial amputees	Hsu, L.H., Huang, G.F., Lu, C.T., Hong, D.Y., Liu, S.H.	2010	Prosthetics and Orthotics International 34(1), pp. 37-45	Cases of production and manufacturing processes (general and specific)	Manufacturing, mechanics, medical	multiprocess, hybrid, medical
2019	F56	A review: additive manufacturing for active electronic components	Saengchairat, N., Tran, T., Chua, C.-K.	2017	Virtual and Physical Prototyping 12(1), pp. 31-46	Cases of production and manufacturing processes (general and specific)	Manufacturing	electronica
2019	F57	A review of printed passive electronic components through fully additive manufacturing methods	Tan, H.W., Tran, T., Chua, C.K.	2016	Virtual and Physical Prototyping 11(4), pp. 271-288	Cases of production and manufacturing processes (general and specific)	Manufacturing	electronica
2019	F58	Additive manufacturing of concrete in construction: potentials and challenges of 3D concrete printing	Bos, F., Wolfs, R., Ahmed, Z., Salet, T.	2016	Virtual and Physical Prototyping 11(3), pp. 209-225	Cases of production and manufacturing processes (general and specific)	Manufacturing	construction
2019	F59	Analysis of sealing methods for FDM-fabricated parts	Mireles, J., Adame, A., Espalin, D., (...), Zinniel, B., Wicker, R.	2011	22nd Annual International Solid Freeform Fabrication Symposium - An Additive Manufacturing Conference, SFF 2011 pp. 185-196	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, hybrid, sealant
2019	F60	Metallization on {FDM} Processed Parts Using Electroless Procedure	Azhar Equbal and Asif Equbal and A.K. Sood	2014	Procedia Materials Science	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocessing, hybrid, METALLIZATION
2019	F61	A study of post-processing methods for improving the tightness of a part fabricated by fused deposition modeling	Jo, K.-H., Jeong, Y.-S., Lee, J.-H., Lee, S.-H.	2016	International Journal of Precision Engineering and Manufacturing 17(11), pp. 1541-1546	Cases of production and manufacturing processes (general and specific)	Manufacturing, mechanics	multiprocess, hybrid, mechanics
2019	F62	Review of reverse engineering systems–current state of the art	Geng, Z., Bidanda, B.	2017	Virtual and Physical Prototyping 12(2), pp. 161-172	Cases of production and manufacturing processes (general and specific)	methodology	Reverse engineering, 3D scanning
2019	F63	Fused deposition modeling five-axis additive manufacturing: machine design, fundamental printing methods and critical process characteristics	Shen, H., Diao, H., Yue, S., Fu, J.	2018	Rapid Prototyping Journal 24(3), pp. 548-561	Cases of production and manufacturing processes (general and specific)	Manufacturing, surface	Process control, surface, 5 axes
2019	F64	Investigation of influence of heat treatment on mechanical strength of {FDM} printed 3D objects	Wonjin Jo and O-Chang Kwon and Myoung-Woon Moon	2018	Rapid Prototyping Journal	Cases of production and manufacturing processes (general and specific)	Manufacturing, mechanics	multiprocess, hybrid, mechanics
2019	F65	REVIEW OF ADDITIVE MANUFACTURING TECHNOLOGIES AND CHARACTERIZATION OF ADDITIVE MANUFACTURING MACHINES	SOLOMON EZEIRUAKU	2015	Requirements for the Degree of Master of Engineering, Manufacturing Engineering, The University of New Mexico Albuquerque, New Mexico	Cases of production and manufacturing processes (general and specific)	Manufacturing	technological review
2019	F66	Ultrasonic additive manufacturing A hybrid production process for novel functional products	Friel, R.J., Harris, R.A.	2013	Procedia CIRP 6, pp. 35-40	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, hybrid, mechanics
2021	F67	Additive manufacturing of multi-material structures	Amit Bandyopadhyay and Bryan Heer	2018	Journal Article published Jul 2018 in Materials Science and Engineering: R: Reports volume 129 on pages 1 to 16	Cases of production and manufacturing processes (general and specific)	Manufacturing	multimaterial
2021	F68	Progress in additive manufacturing on new materials: A review	Li, N., Huang, S., Zhang, G., (...), Shi, G., Blackburn, J.	2019	Journal of Materials Science and Technology 35(2), pp. 242-269	Cases of production and manufacturing processes (general and specific)	Manufacturing	New materials
2021	F69	Two-Way 4D Printing: A Review on the Reversibility of 3D-Printed Shape Memory Materials	Amelia Yilin Lee and Jia An and Chee Kai Chua	2017	Journal Article published Oct 2017 in Engineering volume 3 issue 5 on pages 663 to 674	Cases of production and manufacturing processes (general and specific)	Manufacturing	smart materials, review
2021	F70	Additive manufacturing (3D printing): A review of materials, methods, applications and challenges	Tuan D. Ngo and Alireza Kashani and Gabriele Imbalzano and Kate T.Q. Nguyen and David Hui	2018	Journal Article published Jun 2018 in Composites Part B: Engineering volume 143 on pages 172 to 196	Cases of production and manufacturing processes (general and specific)	Manufacturing	review of materials, methods and applications
2021	F71	Printing with mechanically interlocked extrudates using a custom bi-extruder for fused deposition modelling	Mohammad Abu Hasan Khondoker, Asad Asad, Dan Sameoto	2017	Journal Article published 13 Aug 2018 in Rapid Prototyping Journal volume 24 issue 6 on pages 921 to 934	Cases of production and manufacturing processes (general and specific)	Manufacturing	multimaterial, double extruder
2021	F72	Hybrid Processes in Additive Manufacturing	Michael P. Sealy and Gurucharan Madireddy and Robert E. Williams and Prahalada Rao and Maziar Toursangsaraki	2018	Journal of Manufacturing Science and Engineering JUNE 2018, Vol. 140	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocessing, review
2021	F73	FDM BEST PRACTICE: Assemblies	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific), dimensional modeling.	Manufacturing, dimension	ensemble, modeling, design rules
2021	F74	APPLICATION GUIDE Finishing Touch™ Smoothing Station: Expanding Possibilities	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific), surface modeling.	Manufacturing, surface	Finished surface, process chain, multiprocess, design rules
2021	F75	TECHNICAL APPLICATION GUIDE FDM Tooling for Sheet Metal Forming: Hydroforming and Rubber Pad Press	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	Multiprocess, process chain, tool, design rules
2021	F76	APPLICATION GUIDE: Injection Blow Molding with FDM	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	Multiprocess, process chain, tool, design rules
2021	F77	TECHNICAL APPLICATION GUIDE: Investment Casting with FDM Patterns	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, PATTERN, design rules, reverse casting
2021	F78	TECHNICAL APPLICATION GUIDE: FDM For Jigs And Fixtures	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, PATTERN, design rules
2021	F79	TECHNICAL APPLICATION GUIDE: Guidelines for Preparing and Painting FDM Parts	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific), surface modeling.	Manufacturing, surface	multiprocess, process chain, tool, PATTERN, design rules, reverse casting, surface finish
2021	F80	TECHNICAL APPLICATION GUIDE: FDM FOR SAND CASTING	STRATASYS	2013	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, PATTERN, design rules, sand mold casting
2021	F81	TECHNICAL APPLICATION GUIDE: FDM Patterns for RTV (Rubber) Mold Making	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, PATTERN, design rules, silicone mold
2021	F82	TECHNICAL APPLICATION GUIDE: Comparison of Sealing Methods for FDM Materials	STRATASYS	2014	STRATASYS	Cases of production and manufacturing processes (general and specific), surface modeling.	Manufacturing, surface	multiprocess, process chain, tool, PATTERN, design rules, reverse casting, surface finish, sealing, fluids
2021	F83	TECHNICAL APPLICATION GUIDE: Paper Pulp Molding with FDM Tooling	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	Multiprocess, process chain, tool, PATTERN, design rules, CARDBOARD mold.
2021	F84	APPLICATION GUIDE: Thermoforming	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, design rules, thermoforming
2021	F85	APPLICATION GUIDE: Manufacturing Tools: Modular Fixtures	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, PATTERN, design rules
2021	F86	APPLICATION GUIDE: RTV Molding with Soluble Cores	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, PATTERN, design rules, silicone mold
2021	F87	APPLICATION BRIEF: RTV Molding with FDM Patterns	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, PATTERN, design rules, silicone mold
2021	F88	TECHNICAL APPLICATION GUIDE: Silicone Molding With FDM Patterns	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, PATTERN, design rules, silicone mold
2021	F89	TECHNICAL APPLICATION GUIDE: FDM Sacrificial Cores And Mandrels For Composite Layups	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, PATTERN, design rules, silicone mold
2021	F90	APPLICATION GUIDE: Spin Casting	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	multiprocess, process chain, tool, PATTERN, design rules, rotating mold
2021	F91	TECHNICAL APPLICATION GUIDE: Surrogate Parts for Design, Manufacturing, Training and Support	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	Spare parts, pattern for adjustments, prototypes, training models.
2021	F92	APPLICATION GUIDE: Wind Tunnel Testing	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific)	Manufacturing	models for wind tunnels, fluids
2021	F93	Multi-material, multi-technology {FDM}: exploring build process variations	David Espalin and Jorge Alberto Ramirez and Francisco Medina and Ryan Wicker	2014	Journal Article published 14 Apr 2014 in Rapid Prototyping Journal volume 20 issue 3 on pages 236 to 244	Cases of production and manufacturing processes (general and specific), mechanical modeling, surface modeling.	Manufacturing, mechanics, surface	Surface finish, mechanical characterization, printing time, process chain, multiprocess, design rules.
2021	F94	SISTEMA DE CODIFICACIÓN DE PIEZAS PARA LA PLANEACIÓN DE PROCESOS METAL MECÁNICOS TRADICIONALES	JOSÉ SALVADOR RUIZ BACA	2005	INSTITUTO TECNOLÓGICO Y DE ESTUDIOS SUPERIORES DE MONTERREY CAMPUS ESTADO DE MÉXICO	Cases of production and manufacturing processes (general and specific)	Manufacturing	encoding systems process planning, process chain, multiprocessing
2021	F95	Sistemas de Manufactura: Grupos Tecnológicos	Instituto Tecnologico de Chihuahua II	-	Instituto Tecnologico de Chihuahua II	Cases of production and manufacturing processes (general and specific)	Manufacturing	coding systems process planning, process chain, multiprocessing
2021	F96	A novel decision-making logic for hybrid manufacture of prismatic components based on existing parts	Zicheng Zhu and Vimal Dhokia and Stephen T. Newman	2017	J Intell Manuf (2017) 28:131–148	Cases of production and manufacturing processes (general and specific), surface modeling, dimensional modeling.	Manufacturing, dimension, surface	multiprocessing, review, finish, tolerances
2021	F97	TECHNICAL APPLICATION GUIDE: Comparison of Bonding Methods for FDM Materials	STRATASYS	2015	STRATASYS	Cases of production and manufacturing processes (general and specific), mechanical modeling.	Manufacturing, mechanics	multiprocess, process chain, glue, mechanical resistance, mechanical characterization
2021	F98	Adhesives technology handbook	Ebnesajjad, Sina and Landrock, Arthur H	2014	William Andrew	Cases of production and manufacturing processes (general and specific), mechanical modeling.	Manufacturing, mechanics	multiprocess, process chain, glue, mechanical resistance, mechanical characterization, STATE OF THE ART
2023	F99	Part segregation based on particle swarm optimisation for assembly design in additive manufacturing	Maiyar, L.M., Singh, S., Prabhu, V., Tiwari, M.K.	2019	International Journal of Computer Integrated Manufacturing.	-	-	-
	F100	Part separation technique for assembly-based design in additive manufacturing using genetic algorithm	Deka, A., Behdad, S.	2019	Procedia Manufacturing, 34, pp. 764-771	-	-	-
2017	ME1	Aplicaciones de las impresoras 3D en medicina	Jorge Luis Arráez Álvarez. Mª Elena Arráez Álvarez	2014	Reduca (Recursos Educativos). Serie Congresos Alumnos. 6 (1): 317-322, 2014 ISSN: 1989-5003	Medical applications	medicine	tissue printing, bone and drug
2017	ME2	Impresoras 3D y la medicina	Cuéllar Rojas, Armando1	-	1 MINSAP Nivel Central/Dirección de informática y Comunicaciones, La Habana, Cuba, mandycr@infomed.sld.cu	Medical applications	medicine	Skull implants (plastic not esp), vertebra (Ti) and heel (Ti)
2017	ME3	Evaluation of 3D Printing and Its Potential Impact on Biotechnology and the Chemical Sciences	Bethany C. Gross, Jayda L. Erkal, Sarah Y. Lockwood, Chengpeng Chen, and Dana M. Spence*	2014	Analytical chemistry, January 16, 2014	Medical applications	medicine	Bone printing
2017	ME4	From the printer: Potential of three-dimensional printing for orthopaedic applications	Sze-Wing Mok a,b, Razmara Nizak c, Sai-Chuen Fu a,b, Ki-Wai Kevin Ho a,b, Ling Qin a,b, Danie¨l B.F. Saris c,d, Kai-Ming Chan a,b, Jos Malda	2014	Journal of Orthopaedic Translation (2016) 6, 42e49	Medical applications	medicine	Orthopedic applications
2017	ME5	Three-Dimensional Printing of Carbamazepine Sustained-Release Scaffold	Seng Han Lim, Samuel Ming Yuan Chia, Lifeng Kang, Kevin Yi-Lwern Yap	2016	Journal of Pharmaceutical Sciences 105 (2016) 2155-2163	Medical applications	medicine	Drug printing
2017	ME6	3D printing to simulate laparoscopic choledochal surgery	Oliver C. Burdall, Erica Makin, Mark Davenport, Niyi Ade-Ajayi ⁎	2016	Journal of Pediatric Surgery 51 (2016) 828–831	Medical applications	medicine	surgical procedure simulation
2017	ME7	Fabrication of a highly ordered hierarchically designed porous nanocomposite via indirect 3D printing: Mechanical properties and in vitro cell responses	E. Tamjid a,⁎, A. Simchi b,c	2015	Materials and Design 88 (2015) 924–931	Medical applications	medicine	axes and cell growth
2017	ME8	Fabrication of scalable tissue engineering scaffolds with dual-pore microarchitecture by combining 3D printing and particle leaching	Soumyaranjan Mohanty a, Kuldeep Sanger a, Arto Heiskanen a, Jon Trifol b, Peter Szabo b, Marin Dufva a, Jenny Emnéus a, AndersWolff a,⁎	2016	Materials Science and Engineering C 61 (2016) 180–189	Medical applications	medicine	axes and cell growth
2017	ME9	Effect of layer printing delay on mechanical properties and dimensional accuracy of 3D printed porous prototypes in bone tissue engineering	Arghavan Farzadia,n, VicknesWaranb, MehranSolati-Hashjina, ZainalAriffAbdulRahmanc, Mitra Asadia, NoorAzuanAbuOsmana	2015	Ceramics International41(2015)8320–8330	Medical applications	medicine	Bone printing
2017	ME10	Powder-based 3D printing for bone tissue engineering	G. Brunello a, S. Sivolella a,⁎, R. Meneghello b, L. Ferroni c, C. Gardinc, A. Piattelli d, B. Zavanc,⁎, E. Bressana	2016	Biotechnology Advances xxx (2016) xxx–xxx	Medical applications	medicine	Bone printing
2017	ME11	Modulation, functionality, and cytocompatibility of three-dimensional printing materials made from chitosan-based polysaccharide composites	Chin-San Wu	2016	Materials Science and Engineering C 69 (2016) 27–36	Medical applications, manufacturing, Multimaterial	medicine	Biocompatibility, Multimaterials, additives
2017	ME12	Understanding Spatially Complex Segmental and Branch Anatomy Using 3D Printing: Liver, Lung, Prostate, Coronary Arteries, and Circle of Willis	Ramin Javan, MD, Douglas Herrin, BS, Ardalan Tangestanipoor, MD	2016	Academic Radiology, Vol ■, No ■, ■■ 2016	Medical applications	medicine	tissue printing
2017	ME13	Cerebral Aneurysm Clipping Surgery Simulation Using Patient-Specific 3D Printing and Silicone Casting	Justin R. Ryan1,2, Kaith K. Almefty3, Peter Nakaji3, David H. Frakes1,2,4	2016	WORLD NEUROSURGERY 88: 175-181, APRIL 2016	Medical applications	medicine	surgical procedure simulation
2017	ME14	Using 3D Printing to Create Personalized Brain Models for Neurosurgical Training and Preoperative Planning	Caitlin C. Ploch1, Chris S.S.A. Mansi3, Jayaratnam Jayamohan4, Ellen Kuhl1,2	2016	WORLD NEUROSURGERY 90: 668-674, JUNE 2016	Medical applications	medicine	surgical procedure simulation
2017	ME15	3D printing in Neurosurgery	Francesco Tomasello, Alfredo Conti, Domenico La Torre	2016	WORLD NEUROSURGERY -: ---, MONTH 2016	Medical applications	medicine	surgical procedure simulation
2017	ME16	Design and 3D Printing of Scaffolds and Tissues	Jia An, Joanne Ee Mei Teoh, Ratima Suntornnond, Chee Kai Chua*	2015	Engineering 2015, 1(2): 261–268	Medical applications	medicine	Printing and Bone Impression
2017	ME17	Process Planning for the Fuse Deposition Modeling of Ankle-Foot-Othoses	Yuan Jina,b* , Yong Heb, Albert Shiha,c	2016	Procedia CIRP 42 ( 2016 ) 760 – 765	Medical applications	medicine	orthosis
2017	ME18	Three-dimensional printing technique assisted cognitive fusion in targeted prostate biopsy	Yan Wang a, Xu Gao a, Qingsong Yang b, Haifeng Wang a, Ting Shi a, Yifan Chang a, Chuanliang Xu a, Yinghao Sun a,*	2015	Asian Journal of Urology (2015) 2, 214e219	Medical applications	medicine	surgical procedure simulation
2017	ME19	Application of 3D Printing in Medical Simulation and Education	Carling L. Cheung, Nikoo R. Saber	2016	Bioengineering for Surgery ISBN 978-0-08-100123-3	Medical applications	medicine	surgical procedure simulation
2017	ME20	3D printing of polyurethane biomaterials	K.-C. Hung1, C.-S. Tseng2, S.-H. Hsu1,*	2016	Advances in Polyurethane Biomaterials. http://dx.doi.org/10.1016/B978-0-08-100614-6.00005-6 Copyright © 2016 Elsevier Ltd. All rights reserved.	Medical applications	medicine	Biocompatibility
2017	ME21	Applications of 3D Printing in Cell Biology		2016	Cell Biology. http://dx.doi.org/10.1016/B978-0-12-801853-8.00002-8 Copyright © 2016 Elsevier Inc. All rights reserved	Medical applications	medicine	axes and cell growth
2017	ME22	A preliminary investigation into the development of 3-D printing of prosthetic sockets	Nicholas Herbert, David Simpson, William D. Spence, William Ion	2005	Journal of Rehabilitation Research & Development Volumen 42, Number 2, Pages 141-146, March/April 2005	Medical applications	medicine	prosthesis
2017	ME23	DISEÑO DE UNA PRÓTESIS DE PIERNA PARA AMPUTADOS TRANSTIBIALES	ALEJANDRO JOSÉ DOBERTI MARTÍNEZ, VIVIANA MERUANE NARANJO	2015	TESIS DE GRADO, UNIVERSIDAD DE CHILE FACULTAD DE CIENCIAS FÍSICAS Y MATEMÁTICAS DEPARTAMENTO DE INGENIERÍA MECÁNICA, 2015	Medical applications	medicine	prosthesis
2017	ME24	Fabrication of low cost soft tissue prostheses with the desktop 3D printer	Yong He1,2, Guang-huai Xue1,2 & Jian-zhong Fu1,2	2014	SCIENTIFIC REPORTS \| 4 : 6973 \| DOI: 10.1038/srep06973	Medical applications	medicine	prosthesis
2017	ME25	Fused deposition modeling of patient-specific polymethylmethacrylate implants	David Espalin, Karina Arcaute, David Rodriguez, Francisco Medina, Matthew Posner, Ryan Wicker	2010	Rapid Prototyping Journal, Vol. 16 Issue: 3,pp. 164-173	Medical applications	medicine	skull implants
2019	ME26	Anisotropic Ti-6Al-4V gyroid scaffolds manufactured by electron beam melting (EBM) for bone implant applications	Ataee, A., Li, Y., Fraser, D., Song, G., Wen, C.	2018	Materials and Design 137, pp. 345-354	Medical applications	medicine	Bone implants, optimization (lattice), mechanics
2019	ME27	Additive manufacturing applications in orthopaedics: A review	Javaid, M., Haleem, A.	2018	Journal of Clinical Orthopaedics and Trauma 9(3), pp. 202-206	Medical applications	medicine	orthopedics
2019	ME28	3D printing and modelling of customized implants and surgical guides for non-human primates	Chen, X., Possel, J.K., Wacongne, C., (...), Klink, P.C., Roelfsema, P.R.	2017	Journal of Neuroscience Methods 286, pp. 38-55	Medical applications	medicine	Implants and guides for surgery
2019	ME29	3D printing and its applications in orthopaedic trauma: A technological marvel	Lal, H., Patralekh, M.K.	2018	Journal of Clinical Orthopaedics and Trauma 9(3), pp. 260-268	Medical applications	medicine	orthopedics
2019	ME30	Industry 5.0 and its applications in orthopaedics	Abid Haleem and Mohd Javaid	2018	Journal of Clinical Orthopaedics and Trauma	Medical applications	medicine	orthopedics
2019	ME31	Additive manufacturing applications in cardiology: A review	Haleem, A., Javaid, M., Saxena, A.	2018	Egyptian Heart Journal 70(4), pp. 433-441	Medical applications	medicine	cardiology
2019	ME32	Effects of socket size on metrics of socket fit in trans-tibial prosthesis users	Sanders, J.E., Youngblood, R.T., Hafner, B.J., (...), Ciol, M.A., Allyn, K.J.	2017	Medical Engineering and Physics 44, pp. 32-43	Medical applications	medicine	PROSTHESIS (NOT AM)
2019	ME33	Additive manufacturing applications in medical cases: A literature based review	Mohd. Javaid and Abid Haleem	2018	Alexandria Journal of Medicine	Medical applications	medicine	CASE STUDIES
2019	ME34	Production of customized hip stem prostheses - A comparison between conventional machining and electron beam melting (EBM)	Cronskär, M., Bäckström, M., Rännar, L.-E.	2013	Rapid Prototyping Journal 19(5),17093925, pp. 365-372	Medical applications	Manufacturing, environment, design, medicine	prosthesis
2021	ME35	Three-dimensional printing surgical instruments: are we there yet?	Timothy M. Rankin and Nicholas A. Giovinco and Daniel J. Cucher and George Watts and Bonnie Hurwitz and David G. Armstrong	2014	J Surg Res. 2014 June 15; 189(2): 193–197. doi:10.1016/j.jss.2014.02.020.	Medical applications	medicine	instruments
2021	ME36	3D Printing of Surgical Instruments for Long-Duration Space Missions	Julielynn Y. Wong and Andreas C. Pfahnl	2014	Aviation, Space, and Environmental Medicine x Vol. 85, No. 7 x July 2014	Medical applications	medicine	instruments
2021	ME37	Nuevas Tecnologías para la Sanidad Militar	Crego Vita DM.1, García Cañas R.2, Areta Jiménez FJ.3	2017	Sanidad mil. 2017; 73 (1): 28-30, ISSN: 1887-8571	Medical applications	medicine	instruments
2021	ME38	Three-dimensional printing in surgery: a review of current surgical applications	Hammad H. Malik and Alastair R.J. Darwood and Shalin Shaunak and Priyantha Kulatilake and Abdulrahman A. El-Hilly and Omar Mulki and Aroon Baskaradas	2015	j ournal of s u r g i c a l re s e a r c h 1 9 9 ( 2 0 1 5 ) 5 1 2 -5 2 2	Medical applications	medicine	Anatomical models: surgical planning, education and training; Surgical instruments: preoperative planning, intraoperative use; Implants and prostheses: organ and tissue printing.
2021	ME39	The use of three-dimensional printing technology in orthopaedic surgery: A review	Tak Man Wong and Jimmy Jin and Tak Wing Lau and Christian Fang and Chun Hoi Yan and Kelvin Yeung and Michael To and Frankie Leung	2017	Journal of Orthopaedic Surgery Volume: 25(1) 1–7 ª Journal of Orthopaedic Surgery 2017	Medical applications	medicine	Surgical planning, manufacturing of specific instruments for patients, implants, engineering of bone tissues.
2021	ME40	Computer-assisted mosaic arthroplasty using patient-specific instrument guides	Manuela Kunz and Stephen D. Waldman and John F. Rudan and Davide D. Bardana and A. James Stewart	2012	Knee Surg Sports Traumatol Arthrosc (2012) 20:857–861	Medical applications	medicine	custom instruments
2021	ME41	3D printing in dentistry	A. Dawood and B. Marti Marti and V. Sauret-Jackson and A. Darwood	2015	BRITISH DENTAL JOURNAL VOLUME 219 NO. 11 DEC 11 2015	Medical applications	medicine	Medical models, drilling and cutting guides, crowns and dentures, dental models for restorative dentistry, digital orthodontics, dental implants, maxillofacial implants, instruments.
2021	ME42	Manufacture and evaluation of 3-dimensional printed sizing tools for use during intraoperative breast brachytherapy	Joshua M. Walker and David A. Elliott and Charlotte D. Kubicky and Charles R. Thomas and Arpana M. Naik	2016	Journal Article published Apr 2016 in Advances in Radiation Oncology volume 1 issue 2 on pages 132 to 135	Medical applications	medicine	instrument
2021	ME43	3D Printed Surgical Instruments: The Design and Fabrication Process	Mitchell George and Kevin R. Aroom and Harvey G. Hawes and Brijesh S. Gill and Joseph Love	2016	Journal Article published Jan 2017 in World Journal of Surgery volume 41 issue 1 on pages 314 to 319	Medical applications	medicine	instrument
2021	ME44	On Demand Additive Manufacturing of a Basic Surgical Kit	Shayne Kondor and CAPT Gerald Grant and Peter Liacouras and MAJ James R. Schmid and LTC Michael Parsons and Vipin K. Rastogi and Lisa S. Smith and Bill Macy and Brian Sabart and Christian Macedonia	2013	Journal Article published 1 Sep 2013 in Journal of Medical Devices volume 7 issue 3	Medical applications	medicine	instrument
2021	ME45	ISO 11138-1-Sterilization of health care products — Biological indicators — Part 1: General requirements	INTERNATIONAL STANDARD ORGANIZATION-ISO	2017		Medical applications	medicine	norms
2021	ME46	MANUAL DE BIOSEGURIDAD EN EL LABORATORIO	ORGANIZACIÓN MUNDIAL DE LA SALUD	2005		Medical applications	medicine	norms
2021	ME47	NORMA TÉCNICA COLOMBIANA NTC 4426-3 ESTERILIZACIÓN DE PRODUCTOS PARA EL CUIDADO DE LA SALUD. INDICADORES BIOLÓGICOS. PARTE 3: INDICADORES BIOLÓGICOS PARA PROCESOS DE ESTERILIZACIÓN CON CALOR HÚMEDO.	Instituto Colombiano de Normas Técnicas y Certificación (ICONTEC)	2016		Medical applications	medicine	norms
2021	ME48	Material issues in additive manufacturing: A review	Singh, S., Ramakrishna, S., Singh, R.	2017	Journal of Manufacturing Processes 25, pp. 185-200	manufacturing, medicine	manufacturing, medicine	Applied materials to fabrics
2021	ME49	TECHNICAL APPLICATION GUIDE: Data Segmentation for Medical 3D Printing	STRATASYS	2016	STRATASYS	manufacturing, medicine	manufacturing, medicine	digital images
2021	ME50	A Simple 3-Dimensional Printed Aid for a Corrective Palmar Opening Wedge Osteotomy of the Distal Radius	Philipp Honigmann and Florian Thieringer and Regula Steiger and Mathias Haefeli and Ralf Schumacher and Julia Henning	2016	Journal Article published Mar 2016 in The Journal of Hand Surgery volume 41 issue 3 on pages 464 to 469	Medical applications	medicine	osteotomy, palmar, hand, specific tool or instrument for patient
2021	ME51	3D templating and patient-specific cutting guides (Knee-Plan®) in total knee arthroplasty: Postoperative CT-based assessment of implant positioning	J.-P. Franceschi and A. Sbihi	2014	Orthopaedics & Traumatology: Surgery & Research 100 (2014) S281–S286	Medical applications	medicine	osteoarthritis, knee, specific tool or instrument for patient, planning, software, knee arthroplasty
2021	ME51 A	Knee-Plan®system, Symbios Orthopédie SA	SYMBIOS	2014, 2021	https://symbios.ch/en/medical-professionals/products-and-solutions/knee-plan/?lang=en	Medical applications	medicine	osteoarthritis, knee, specific tool or instrument for patient, planning, software, knee arthroplasty
2021	ME52	Computer-Assisted Planning and Three-Dimensional-Printed Patient-Specific Instrumental Guide for Corrective Osteotomy in Post-Traumatic Femur Deformity: A Case Report and Literature Review	Lau Chi-Kay and Chui King-him and Lee Kin-bong and Li Wilson	2018	Journal of Orthopaedics, Trauma and Rehabilitation 24 (2018) 12e17	Medical applications	medicine	Lower limb osteotomy, specific tool or instrument for the patient.
2021	ME53	Three-dimensional printing in spine surgery: a review of current applications	Yixuan Tong and Daniel James Kaplan and Jeffrey M. Spivak and John A. Bendo	2020	The Spine Journal 20 (2020) 833−846	Medical applications	medicine	SURGERY OF THE SPINE, state of the art
2021	ME54	Biomedicine	Chao Lin	2012	InTech	Medical applications	medicine	state of the art.
2021	ME55	Additive Manufacturing Solutions for Improved Medical Implants	Vojislav Petrovic and Juan Vicente and Jose Ramn and Luis Portols	2012	InTech, BOOK BIOMEDICINE	Medical applications	medicine	state of the art.
2021	ME56	Polymer-Based Additive Manufacturing	Declan M. Devine	2019	Springer International Publishing	Medical applications	medicine	state of the art.
2021	ME57	Current Market for Biomedical Implants	Aleksandra Foerster and Laura Ruiz Cantu and Ricky Wildman and Christopher Tuck	2019	Springer International Publishing, Book Polymer-Based Additive Manufacturing	Medical applications	medicine	state of the art.
2021	ME58	PHONAK	PHONAK	2021	https://www.phonak.com/us/en.html	Medical applications	medicine	customization, headphone, ear implant
2021	ME59	INVISALIGN	PERFECT SMILE	2021	https://perfect-smile.cz/rovnatka-invisalign?gclid=EAIaIQobChMIgJKo8rOl6gIVzJ6zCh3augAeEAAYASAAEgI4avD_BwE	Medical applications	medicine	customization, frenulum, dental implant
2021	ME60	ENVISIONTEC	ENVISIONTEC	2021	https://envisiontec.com/3d-printing-industries/medical/	Medical applications	medicine	Biocompatible materials for auditory and dental/orthodontic implants.
2021	ME61	ISO STANDARD · ISO 10993-1 Biological evaluation of medical devices. Part 1: Evaluation and testing within a risk management process	INTERNATIONAL STANDARD ORGANIZATION-ISO	2018	INTERNATIONAL STANDARD ORGANIZATION-ISO	Medical applications	medicine	norms
2021	ME62	ISO STANDARD · ISO 10993-4 Biological evaluation of medical devices —Part 4: Selection of tests for interactions with blood	INTERNATIONAL STANDARD ORGANIZATION-ISO	2009	INTERNATIONAL STANDARD ORGANIZATION-ISO	Medical applications	medicine	norms
2021	ME63	ISO STANDARD · ISO 10993-5 Biological evaluation of medical devices —Part 5: Tests for in vitro cytotoxicity	INTERNATIONAL STANDARD ORGANIZATION-ISO	2009	INTERNATIONAL STANDARD ORGANIZATION-ISO	Medical applications	medicine	norms
2021	ME64	ISO 10993-11:2009 Biological evaluation of medical devices - Part 11: Tests for systemic toxicity (ISO 10993-11:2006)	INTERNATIONAL STANDARD ORGANIZATION-ISO	2009	INTERNATIONAL STANDARD ORGANIZATION-ISO	Medical applications	medicine	norms
2021	ME65	ISO 10993-18:2005 Biological evaluation of medical devices — Part 18: Chemical characterization of materials	INTERNATIONAL STANDARD ORGANIZATION-ISO	2009	INTERNATIONAL STANDARD ORGANIZATION-ISO	Medical applications	medicine	norms
2021	ME66	ISO 10993-17:2002 Biological evaluation of medical devices — Part 17: Establishment of allowable limits for leachable substances	INTERNATIONAL STANDARD ORGANIZATION-ISO	2009	INTERNATIONAL STANDARD ORGANIZATION-ISO	Medical applications	medicine	norms
2021	ME67	ISO 10993-3:2014 Biological evaluation of medical devices — Part 3: Tests for genotoxicity, carcinogenicity and reproductive toxicity	INTERNATIONAL STANDARD ORGANIZATION-ISO	2009	INTERNATIONAL STANDARD ORGANIZATION-ISO	Medical applications	medicine	norms
2021	ME68	DECLARATION OF COMPLIANCE WITH EN ISO 10993-1 Overall Biological Risk Assessment for the 3-D Printing Material Ultem 1010	Dieter R. Dannhorn, Erwin Deiringer	2018	Stratasys GmbH. Airport Boulevard B120, 77836 Rheinmϋnster Germany	Medical applications	medicine	Cytotoxicity, Irritation, Delayed-type Hypersensitivity, Material-mediated Pyrogenicity, Acute Systemic Toxicity, Chemical Characterization, Permissible Limits for Leachable Substances, Compliance with ULTEM Standards
2021	ME69	Filamentos BioCompatibles	IMKR.COM, Filaments.CA,	2020, 2021	https://www.imakr.com/pcl-filaments-for-3d-printers, https://filaments.ca/products/pcl-low-temperature-filament-natural-1-75mm#:~:text=Our%20PCL%20(Polycaprolactone)%203D%20filament,such%20as%20PLA%2C%20ABS%20etc.	Medical applications	medicine	Biocompatible filaments, semi-permanent implants.
2021	ME70	Hearing aids	STARKEY	2020, 2021	https://www.starkey.co.uk/hearing-aids	Medical applications	medicine	customization, headphone, ear implant
2021	ME71	FIGURE PRINTS WORLD OF WARCRAFT	SQUIP	2020, 2021	https://squip.com/product/wow/	Medical applications	customization	customization, action figures
2021	ME72A	Custom 3D Printed Glasses Glasses that fit you. Only you.	SPECSY	2020, 2021	https://home.specsy.com/	Medical applications	customization	personalized glasses
2021	ME72B	custom-made-3d-printed-glasses	3D BROOKLIN	2020	https://3dbrooklyn.com/custom-made-3d-printed-glasses	Medical applications	customization	personalized glasses
2021	ME73A	THE EARTH SHOE	QUERENCIA STUDIO		https://www.querenciastudio.com/products/the-earth-shoe	Medical applications	customization	Custom footwear, custom shoes
2021	ME73B	HEROES SANDAL	HEROES SANDALS		https://www.heroessandals.com/howtomeasure	Medical applications	customization	Custom footwear, custom shoes
2021	ME73C	FOOTB 3D CUSTOM INSOLE	CASCA		https://casca.com/products/footb3d-custom-insole	Medical applications	customization	Custom footwear, custom shoes
2021	ME73D	PLANTILLAS PERSONALIZADAS DE WIIVV	wiivv		https://wiivv.com/pages/insoles	Medical applications	customization	Custom footwear, custom shoes
2021	ME74	Personalized Surgical Instruments	Shayne Kondor, CAPT Gerald Grant, Peter Liacouras, MAJ James R. Schmid, LTC Michael Parsons, Bill Macy, Brian Sabart, Christian Macedonia	2013	Journal of Medical Devices, SEPT VOL 7	Medical applications	medicine	instrument
2021	ME75	Cardiovascular Three-Dimensional Printing in Non-Congenital Percutaneous Interventions	Manuel de Oliveira-Santos, Eduardo Oliveira-Santos, Lino Gonçalves, João Silva Marques	2019	Journal Article published Oct 2019 in Heart, Lung and Circulation volume 28 issue 10 on pages 1525 to 1534	Medical applications	medicine	instrument
2021	ME76	3D Printed Surgical Instruments: The Design and Fabrication Process	Mitchell George and Kevin R. Aroom and Harvey G. Hawes and Brijesh S. Gill and Joseph Love	2016	World J Surg. 2017 January ; 41(1): 314–319	Medical applications	medicine	instrument
2021	ME77	Diseño y Construcción de Prótesis de Miembros Superiores e Inferiores mediante Impresión 3D para Personas Discapacitadas de Bajos Recursos	Roberto Algarín Roncallo, Javier Vargas Duque, Luis López Taborda, Guadalupe Avelar, Milena Mendoza, Ramiro Rodríguez Márceles	2015	Proyecto de Investigación, desarrollo e innovación 3D INGENIERIA BQ SAS, CE CAMILO	Medical applications	medicine	prosthesis
2021	ME78	Experimental characterization and theoretical modelling of the mechanical behaviour of ABS in the 3D printing process	Roberto Algarín, Luis López, Diego Guillen, William Fuentes	2016-2021	Proyecto de Aula Doctoral UNIVERSIDAD DEL NORTE/Proyecto de investigación, desarrollo e innovación 3D INGENIERIA BQ SAS, artículo científico no publicado	Medical applications, Mechanical modeling, Failure theory	medicine, mechanics, failure theory	prosthesis, mechanical characterization, simulation, failure theory
2021	ME79	Prótesis electromecánicas de miembro inferior y superior para personas amputadas de bajos recursos	Roberto Algarín Roncallo, Javier Vargas, Luis López, Guadalupe Avelar, Diego Serrano Bula	2017	Proyecto de Investigación, desarrollo e innovación 3D INGENIERIA BQ SAS, CE CAMILO Y UNIVERSIDAD AUTONOMA DEL CARIBE (solo protesis superior electromecánica)	Medical applications	medicine	prosthesis
2021	ME80	Diseño Industrial de cubiertas cosméticas y personalizadas para prótesis de miembros inferiores.	Roberto Algarín Roncallo, Javier Vargas, Libardo Reyes, Estudiantes de asignatura de diseño industrial, Luis López.	2017	Proyecto de Aula de Pregrado UNIVERSIDAD DEL NORTE/ Proyecto de Investigación, desarrollo e innovación 3D INGENIERIA BQ SAS	Medical applications	medicine	prosthesis
2021	ME81	Diseño y Fabricación de cubiertas cosméticas para prótesis de miembros inferiores.	Roberto Algarín Roncallo, Javier Vargas, Luis López	2018	Proyecto de Investigación, desarrollo e innovación 3D INGENIERIA BQ SAS	Medical applications, Mechanical modeling	medicine, mechanics	prosthesis, mechanical characterization
2021	ME82	Elementos protésicos de fácil acceso para personas con amputación de miembro inferior	Roberto Algarín Roncallo, Javier Vargas Duque, Luis López Taborda	2019	Proyecto de Investigación, desarrollo e innovación 3D INGENIERIA BQ SAS, SENA Y UNIVERSIDAD DEL ATLANTICO (Solo pruebas en elementos protesicos)	Medical applications, Mechanical modeling, Failure theory	medicine, mechanics, failure theory	prosthesis, mechanical characterization, simulation, failure theory
2021	ME83	IMPLEMENTACIÓN DE CUÑA Y DESARROLLO DE HERRAMIENTA INFORMÁTICA APLICADA A PROCESOS DE OSTEOTOMÍA UTILIZANDO TECNOLOGÍA FDM (MODELADO DE DEPOSICIÓN FUNDIDA): UN CASO CLÍNICO.	MEZA BALZA SAIN JOSÉ, PÉREZ PIZARRO RAFAEL JOSÉ	2018	UNIVERSIDAD DEL ATLÁNTICO, FACULTAD DE INGENIERÍA DEPARTAMENTO DE INGENIERÍA PROGRAMA DE INGENIERÍA MECÁNICA	Medical applications, Mechanical modeling	medicine, mechanics	Wedge for lower limb osteotomy, mechanical characterization, simulation.
2021	ME84	DISEÑO Y CONSTRUCCIÓN DE PROTOTIPO DE MOLDE PARA RECONSTRUCCIÓN ÓSEA A PARTIR DE TOMOGRAFÍA COMPUTARIZADA MEDIANTE IMPRESIÓN 3D	MARULANDA HERRERA HÉCTOR, MIGUEL ORTIZ LLANOS ANDRÉS FELIPE	2021	UNIVERSIDAD DEL ATLÁNTICO FACULTAD DE INGENIERÍA DEPARTAMENTO DE INGENIERÍA PROGRAMA DE INGENIERÍA MECÁNICA	Medical applications, Mechanical modeling	medicine, mechanics	Mold for bone implant, mechanical characterization, simulation.
2021	ME85	IMPLEMENTACIÓN DE UN PROTOTIPO DE SEPARADOR AUTOESTÁTICO PARA ABDOMINOPLASTIA	DAVID RICARDO ESCALANTE MEJÍAJOSÉ ALEJANDRO LAMADRID LEMUS	2021	UNIVERSIDAD DEL ATLÁNTICO FACULTAD DE INGENIERÍA PROGRAMA DE INGENIERÍA MECÁNICA	Medical applications, Mechanical modeling	medicine, mechanics	Prototype surgical instrument/tool, mechanical characterization, simulation.
2021	ME86	Computer Aided Design of Large-Format Prefabricated Cranial Plates	David Dean, Kyoung-June Min, Angus Bond	2003	THE JOURNAL OF CRANIOFACIAL SURGERY / VOLUME 14, NUMBER 6	medical applications	medicine	bone implant, customization
2021	ME87	Customized Cranioplasty Implants Using Three-Dimensional Printers and Polymethyl-Methacrylate Casting	Bum-Joon Kim, Ki-Sun Hong,Kyung-Jae Park, Dong-Hyuk Park, Yong-Gu Chung, Shin-Hyuk Kang	2012	J Korean Neurosurg Soc 52 December 2012	medical applications	medicine	bone implant, customization
2021	ME88	Cold-Injection Molded Gentamicin-Impregnated Polymethyl Methacrylate Implants for Cranioplasty	Mena Mekhael Fahem, Nabeel Hameed Ali, Joseph Ravindra Duddu, Harleen Luther	2021	Journal Article published 29 Jul 2021 in Operative Neurosurgery	medical applications	medicine	bone implant, customization
2021	ME89	Customized Cost‑Effective Polymethyl‑Methacrylate Cranioplasty Implant Using Three‑Dimensional Printer	Sambardhan Dabadi, Raju Raj Dhungel, Upama Sharma, Dinuj Shrestha, Pritam Gurung, Resha Shrestha, Basant Pant	2021	Asian Journal of Neurosurgery	medical applications	medicine	bone implant, customization
2021	ME90	Cranioplasty with preoperatively customized Polymethyl-methacrylate by using 3-Dimensional Printed Polyethylene Terephthalate Glycol Mold	Mehmet Beşir Sürme, Omer Batu Hergunsel, Bekir Akgun and Metin Kaplan	2018	Journal of Neuroscience and Neurological Disorders	medical applications	medicine	bone implant, customization
2021	ME91	Customized Polymethylmethacrylate Cranioplasty Implants Using 3-Dimensional Printed Polylactic Acid Molds: Technical Note with 2 Illustrative Cases	Joe Abdel Hay, Tarek Smayra, Ronald Moussa	2017	WORLD NEUROSURGERY	medical applications	medicine	bone implant, customization
2021	ME92	Cost-Effective Technique of Fabrication of Polymethyl Methacrylate Based Cranial Implant Using Three-Dimensional Printed Moulds and Wax Elimination Technique	Jimish B. Desai	2019	The Journal of Craniofacial Surgery Volume 30, Number 4, June 2019	medical applications	medicine	bone implant, customization
2021	ME93	Low-Cost Customized Cranioplasty with Polymethyl Methacrylate Using 3D Printer Generated Mold: An Institutional Experience and Review of Literature	Ankit Chaudhary, Virendra Deo Sinha, Sanjeev Chopra, Jitendra Shekhawat, Gaurav Jain	2020	Indian Journal of Neurotrauma Vol. 17 No. 2/2020	medical applications	medicine	bone implant, customization
2021	ME94	Comparison between autologous bone grafts and acrylic (PMMA) implants – A retrospective analysis of 286 cranioplasty procedures	G.H. Vince, J. Kraschl, H. Rauter, M. Stein, S. Grossauer, E. Uhl	2019	Journal of Clinical Neuroscience 61 (2019) 205–209	medical applications	medicine	bone implant, customization
2021	ME95	Alloplastic Cranioplasty Reconstruction A Systematic Review Comparing Outcomes With Titanium Mesh, Polymethyl Methacrylate, Polyether Ether Ketone, and Norian Implants in 3591 Adult Patients	Jeremie D. Oliver, Joseph Banuelos, Amjed Abu-Ghname, Krishna S. Vyas, and Basel Shara	2019	Annals of Plastic Surgery • Volume 82, Supplement 4, May 2019	medical applications	medicine	bone implant, customization
2021	ME96	Traumatic Fracture of a Polymethyl Methacrylate Patient-Specific Cranioplasty Implant	Andrew L. Ko, John D. Nerva, Jason J. J. Chang, Randall M. Chesnut	2014	WORLD NEUROSURGERY 82 [3/4]: 536.e11-536.e13, SEPTEMBER/OCTOBER 2014	medical applications	medicine	bone implant, customization
2021	ME97	Outcome in patient-specific PEEK cranioplasty: A two-center cohort study of 40 implants	J. Jonkergouw, S.E.C.M. van de Vijfeijken, E. Nout, T. Theys, E. Van de Casteele, H. Folkersma, P.R.A.M. Depauw, A.G. Becking	2016	Journal of Cranio-Maxillo-Facial Surgery 44 (2016) 1266-1272	medical applications	medicine	bone implant, customization
2021	ME98	3D-Printer-Assisted Patient-Specific Polymethyl Methacrylate Cranioplasty: A Case Series of 16 Consecutive Patients	Stephan N. Schon, Nicolas Skalicky, Neha Sharma, Daniel W. Zumofen, Florian M. Thieringer	2021	World Neurosurg. (2021) 148:e356-e362	medical applications	medicine	bone implant, customization
2021	ME99	Rehabilitation of a cranial defect with a preoperatively customized polymethyl-methacrylate prosthesis using 3-dimensional printed p olylactic acid mold: A case report	Anita Kapri, Pushpa Kumari, Gulnar Sethna	2020	IP Annals of Prosthodontics and Restorative Dentistry 2020;6(2):105–109	medical applications	medicine	bone implant, customization
2021	ME100	Long-Term Complications of Cranioplasty Using Stored Autologous Bone Graft, Three- Dimensional Polymethyl Methacrylate, or Titanium Mesh After Decompressive Craniectomy: A Single-Center Experience After 596 Procedures	Mun-Chun Yeap, Po-Hsun Tu, Zhuo-Hao Liu, Po-Chuan Hsieh, Yu-Tse Liu, Ching-Yi Lee, Hung-Yi Lai, Chun-Ting Chen, Yin-Cheng Huang, Kuo-chen Wei, Chieh-Tsai Wu, Ching-Chang Chen	2019	WORLD NEUROSURGERY 128: e841-e850, AUGUST 2019	medical applications	medicine	bone implant, customization
2021	ME101	BIOCOMPATIBILITY STUDIES ON SILICONE RUBBER	P.V. Mohanan and K. Rathinam	1995	Proceedings RC IEEE-EMBS & 14th BMESI - 1995	medical applications	medicine	Biocompatible materials for implants
2021	ME102	A classification of cranial implants based on the degree of difficulty in computer design and manufacture	Jules Poukens Paul Laeven Maikel Beerens Gerard Nijenhuis Jos Vander Sloten Paul Stoelinga Peter Kessler	2008	THE INTERNATIONAL JOURNAL OF MEDICAL ROBOTICS AND COMPUTER ASSISTED SURGERY Int J Med Robotics Comput Assist Surg 2008; 4: 46–50.	medical applications	medicine	bone implant, customization
2021	ME103	Mechanical performances of hip implant design and fabrication with PEEK composite	Bankole I. Oladapo, S. Abolfazl Zahedi, Sikiru O. Ismail	2021	Polymer 227 (2021) 123865	medical applications	medicine	Bone implant, hip implant, customization
2021	ME104	Additive manufacture of PEEK cranial implants: Manufacturing considerations versus accuracy and mechanical performance	S. Berretta, K. Evans, O. Ghita	2018	Materials and Design 139 (2018) 141–152	medical applications	medicine	bone implant, skull implant, customization
2021	ME105	Mechanical characterization of biocompatible PEEK by FDM	Yachen Zhao, Kai Zhao, Yuchan Li, Fei Chen	2020	Journal of Manufacturing Processes 56 (2020) 28–42	medical applications	medicine	bone implant, skull implant, customization
2023	ME106	Design of Additively Manufactured Structures for Biomedical Applications: A Review of the Additive Manufacturing Processes Applied to the Biomedical Sector	Calignano, F., Galati, M., Iuliano, L., Minetola, P.	2019	Journal of Healthcare Engineering, 2019, art. no. 9748212.	medical applications	medicine	-
2023	ME107	A Co-Design Method for the Additive Manufacturing of Customised Assistive Devices for Hand Pathologies	Gherardini, F., Mascia, M.T., Bettelli, V., Leali, F.	2019	Journal of Integrated Design and Process Science, 22(1), pp. 21-37.	medical applications	medicine	hand orthosis
	ME108	A review on 3D printing techniques for medical applications	Mallikarjuna N Nadagouda, Vandita Rastogi and Megan Ginn	2020	Current Opinion in Chemical Engineering 2020, 28:152–157	medical applications	medicine	-
	ME109	Medical Applications of Biomaterials: The Case of Design and Manufacture of Orthopedic Corsets Made of Polylactic Acid by Additive Manufacturing	Molnár, I., Morovič, L., Sobrino, D.R.D., Lecký, Š., Michal, D.	2019	Materials Science Forum, 952, pp. 223-232.	-	-	-
2017	FA1	Additive manufacturing of fatigue resistant materials: Challenges and opportunities	Aref Yadollahi a, Nima Shamsaei b,⇑	2017	International Journal of Fatigue 98 (2017) 14–31	fatigue modeling	fatigue	state of the art fatigue.
2017	FA2	Microstructure Evolution, Tensile Properties, and Fatigue Damage Mechanisms in Ti-6Al-4V Alloys Fabricated by Two Additive Manufacturing Techniques	Yuwei Zhaia,*, Haize Galarragaa, and Diana A. Ladosa	2015	Procedia Engineering 114 ( 2015 ) 658 – 666	fatigue modeling	fatigue	metal
2017	FA3	Fatigue behavior of IN718 microtrusses produced via additive manufacturing	Lena Huynh, John Rotella, Michael D. Sangid ⁎	2016	Materials and Design 105 (2016) 278–289	fatigue modeling	fatigue	metal
2017	FA4	Microstructure, static properties, and fatigue crack growth mechanisms in Ti-6Al-4V fabricated by additivemanufacturing: LENS and EBM	Yuwei Zhai ⁎, Haize Galarraga, Diana A. Lados	2016	Engineering Failure Analysis 69 (2016) 3–14	fatigue modeling	fatigue	metal
2017	FA5	Fatigue Behaviour of Additively Manufactured Ti-6Al-4V	Amanda Sterlinga, Nima Shamsaeia,b*, Brian Torriesa, Scott M. Thompsona,b	2015	Procedia Engineering 133 ( 2015 ) 576 – 589	fatigue modeling	fatigue	metal
2017	FA6	FatigueperformanceevaluationofselectivelasermeltedTi–6Al–4V	P.Edwards a, M.Ramulu b,n	2014	Materials Science&EngineeringA598(2014)327–337	fatigue modeling	fatigue	metal
2017	FA7	Fatigue properties of a titanium alloy (Ti–6Al–4V) fabricated via electron beam melting (EBM): Effects of internal defects and residual stress q	Nikolas Hrabe a,⇑, Thomas Gnäupel-Herold b, Timothy Quinn	2017	International Journal of Fatigue 94 (2017) 202–210	fatigue modeling	fatigue	metal
2017	FA8	Enhancement of Low-Cycle Fatigue Performance From Tailored Microstructures Enabled by Electron Beam Melting Additive Manufacturing Technology	Philip A. Morton, Jorge Mireles1, Heimdall Mendoza, Paola M. Cordero, Mark Benedict, Ryan B. Wicker	2015	Journal of Mechanical Design, NOVEMBER 2015, Vol. 137	fatigue modeling	fatigue	metal
2017	FA9	Defect distribution and microstructure heterogeneity effects on fracture resistance and fatigue behavior of EBM Ti–6Al–4V	Mohsen Seifi a,⇑, Ayman Salem b, Daniel Satko b, Joshua Shaffer b, John J. Lewandowski	2017	International Journal of Fatigue 94 (2017) 263–287	fatigue modeling	fatigue	metal
2017	FA10	Effects of Defects in Laser Additive Manufactured Ti-6Al-4V on Fatigue Properties	Eric Wyciska,*, Andreas Solbachb, Shafaqat Siddiquec, Dirk Herzogb, Frank Waltherc, Claus Emmelmanna	2014	Physics Procedia 56 ( 2014 ) 371 – 378	fatigue modeling	fatigue	metal
2017	FA11	Fatigue analysis of FDM materials	John Lee, Adam Huang	2013	Rapid Prototyping Journal, Vol. 19 Issue: 4, pp.291-299	fatigue modeling	fatigue	fdm
2017	FA12	Fatigue Life of Titanium Alloys Fabricated by Additive Layer Manufacturing Techniques for Dental Implants	KWAI S. CHAN, MARIE KOIKE, ROBERT L. MASON, and TORU OKABE	2013	METALLURGICAL AND MATERIALS TRANSACTIONS A, 1010—VOLUME 44A, FEBRUARY 2013	fatigue modeling	fatigue	metal
2017	FA13	Empirical Approach to Understanding the Fatigue Behavior of Metals Made Using Additive Manufacturing	DAVID B. WITKIN, THOMAS V. ALBRIGHT, and DHRUV N. PATEL	2016	METALLURGICAL AND MATERIALS TRANSACTIONS A, VOLUME 47A, AUGUST 2016—3823	fatigue modeling	fatigue	metal
2017	FA14	Fatigue Behavior of FDM Parts Manufactured with Ultem 9085	MATTHIAS FISCHER 1,2,3 and VOLKER SCHOPPNER	2017	JOM (Journal of Metals), Vol. 69, No. 3, 2017	fatigue modeling	fatigue	fdm
2017	FA15	FATIGUE CHARACTERIZATION OF 3D PRINTED ELASTOMER MATERIAL	Jacob P. Moore and Christopher B. Williams	2012	-	fatigue modeling	fatigue	3DP Translation in English: 3DP
2017	FA16	Material Property Testing of 3D-Printed Specimen in PLA on an Entry-Level 3D Printer	Todd Letcher	2015	Proceedings of the ASME 2014 International Mechanical Engineering Congress & Exposition IMECE2014 November 14-20, 2014, Montreal, Quebec, Canada	fatigue modeling	fatigue	fdm
2017	FA17	Tensile and fatigue behavior of layered acrylonitrile butadiene styrene	Sophia Ziemian, Maryvivian Okwara, Constance Wilkens Ziemian	2015	Rapid Prototyping Journal, Vol. 21 Issue: 3, pp.270-278	fatigue modeling	fatigue	fdm
2017	FA18	Fatigue of injection molded and 3D printed polycarbonate urethane in solution	Andrew T. Miller a, *, David L. Safranski d, Kathryn E. Smith d, Dalton G. Sycks c, Robert E. Guldberg a, b, Ken Gall	2017	Polymer 108 (2017) 121e134	fatigue modeling, manufacturing	fatigue	fff, process chain, multimaterial, additive
2017	FA19	Characterization of stiffness degradation caused by fatigue damage of additive manufactured parts	C.W. Ziemian a,⁎, R.D. Ziemianb, K.V. Haile a	2016	Materials and Design 109 (2016) 209–218	fatigue modeling	fatigue	fdm
2017	FA20	Fatigue lifespan study of PLA parts obtained by additive manufacturing	R.Jerez-MesaaJ.A.Travieso-RodriguezaJ.Llumà-FuentesaG.Gomez-GrasbD.Puiga	2017	Procedia Manufacturing Volume 13, 2017, Pages 872-879	fatigue modeling	fatigue	fdm
2017	FA21	Fatigue performance of fused filament fabrication PLA specimens	Giovanni Gomez-Gras a, Ramón Jerez-Mesa b, J. Antonio Travieso-Rodriguez b,⁎, Jordi Lluma-Fuentes	2018	Materials and Design 140 (2018) 278–285	fatigue modeling	fatigue	fdm
2021	FA22	Flexural fatigue properties of polycarbonate fused-deposition modelling specimens	Josep M. Puigoriol-Forcada, Alex Alsina, Antonio G. Salazar-Martín, Giovanni Gomez-Gras, Marco A. Pérez	2018	Journal Article published Oct 2018 in Materials & Design volume 155 on pages 414 to 421	fatigue modeling	fatigue	fdm
2021	FA23	Caracterización De Las Probetas De Policarbonato Fabricadas Por FDM Sometidas A Fatiga Por Flexión Rotativa Y Recubiertas Con Resina Epoxi	Samir Alberto Pava Barreto, Kevin Antonio Álvarez López	2019	UNIVERSIDAD DEL ATLÁNTICO, FACULTAD DE INGENIERÍA, PROGRAMA DE INGENIERÍA MECÁNICA	fatigue modeling, manufacturing	fatigue	fff, process chain, post-processing, epoxy resin
2021	FA24	Fatigue behaviour of FDM-3D printed polymers, polymeric composites and architected cellular materials	Vigneshwaran Shanmugam and Oisik Das and Karthik Babu and Uthayakumar Marimuthu and Arumugaprabu Veerasimman and Deepak Joel Johnson and Rasoul Esmaeely Neisiany and Mikael S. Hedenqvist and Seeram Ramakrishna and Filippo Berto	2021	International Journal of Fatigue 143 (2021) 106007	fatigue modeling	fatigue	state of the art fatigue.
2021	FA25	A review of the fatigue behavior of 3D printed polymers	Lauren Safai and Juan Sebastian Cuellar and Gerwin Smit and Amir A. Zadpoor	2019	Additive Manufacturing 28 (2019) 87–97	fatigue modeling	fatigue	state of the art fatigue.
2021	FA26	Static and fatigue behaviour of continuous fibre reinforced thermoplastic composites manufactured by fused deposition modelling technique	Alberto D. Pertuz and Sergio Díaz-Cardona and Octavio Andrés González-Estrada	2020	International Journal of Fatigue 130 (2020) 105275	fatigue modeling	fatigue	Fatigue FFF Modified, multimaterial
2017	E1	Investigating the feasibility of supply chain-centric business models in 3D chocolate printing: A simulation study	Fu Jia a,b, XiaofengWang c,⁎, Navonil Mustafee a, Liang Hao d	2016	Technological Forecasting & Social Change 102 (2016) 202–213	Market research and environment	environment	economy
2017	E2	A global sustainability perspective on 3D printing technologies	MalteGebler,AntonJ.M.SchootUiterkamp,CindyVisser	2014	Energy Policy74(2014)158–167	Market research and environment	environment	environment
2017	E3	From rapid prototyping to home fabrication: How 3D printing is changing business model innovation	Thierry Rayna a, Ludmila Striukova b,⁎	2016	Technological Forecasting & Social Change 102 (2016) 214–224	Market research and environment	environment	economy
2017	E4	Analysis of energy utilization in 3d printing processes	Tao Peng	2016	Procedia CIRP 40 ( 2016 ) 62 – 67	Market research and environment	environment	energy
2017	E5	An exposure assessment of desktop 3D printing	By Tracy L. Zontek, Burton R. Ogle, John T. Jankovic, Scott M. Hollenbeck	2016	J. Chem. Health Safety (2016), JCHAS-902; No of Pages 11	Market research and environment	environment	health
2017	E6	Economic implications of 3D printing:Market structure models in light of additive manufacturing revisited	Christian Weller,RobinKleer n, FrankT.Piller	2015	Int. J.ProductionEconomics164(2015)43–56	Market research and environment	environment	economy
2017	E7	Impact of additive manufacturing technology adoption on supply chain management processes and components	Katrin Oettmeier, Erik Hofmann	2016	Journal of Manufacturing Technology Management, Vol. 27 Issue: 7,pp. 944-968	Market research and environment	environment	economy
2017	E8	Impact of additive manufacturing on business competitiveness: a multiple case study	Mojtaba Khorram Niaki, Fabio Nonino,	2017	Journal of Manufacturing Technology Management, Vol. 28 Issue: 1,pp. 56-74	Market research and environment	environment	economy
2017	E9	Evaluation of Cost Structures of Additive Manufacturing Processes Using a New Business Model	Schröder, M., Falk, B., Schmitt, R.	2015	Procedia CIRP 30, pp. 311-316	Market research and environment	environment	economy
2017	E10	Additive manufacturing technology adoption: an empirical analysis of general and supply chain-related determinants	Katrin Oettmeier1 • Erik Hofmann1	2017	J Bus Econ (2017) 87:97–124	Market research and environment	environment	economy
2017	E10B	Informing additive manufacturing technology adoption: total cost and the impact of capacity utilisation	Baumers, M., Beltrametti, L., Gasparre, A., Hague, R.	2017	International Journal of Production Research pp. 1-14	Market research and environment	environment	economy
2017	E11	Additive manufacturing: A framework for implementation	Mellor, S., Hao, L., Zhang, D.	2014	International Journal of Production Economics 149, pp. 194-201	Market research and environment	environment	economy
2017	E12	The impact of additive manufacturing on supply chains	Christian F. Durach, Stefan Kurpjuweit, Stephan M. Wagner	2017	International Journal of Physical Distribution & Logistics Management, Vol. 47 Issue: 10, pp.954-971,	Market research and environment	environment	economy
2017	E13	E-commerce channels for additive manufacturing: an exploratory study	Daniel R Eyers, Andrew T Potter	2015	Journal of Manufacturing Technology Management, Vol. 26 Issue: 3, pp.390-411	Market research and environment	environment	economy
2017	E14	The role of Design for Additive Manufacturing in the successful economical introduction of AM	T.H.J. Vaneker	2017	Procedia CIRP 60 ( 2017 ) 181 – 186	Market research and environment	environment	economy
2019	E15	Impact of Total Build Height and Batch Size on Environmental Performance of Electron Beam Melting	Le, V.T., Paris, H.	2018	Procedia CIRP 69, pp. 112-117	Market research and environment	environment	environment
2019	E16	Framework to Combine Technical, Economic and Environmental Points of View of Additive Manufacturing Processes	Yosofi, M., Kerbrat, O., Mognol, P.	2018	Procedia CIRP 69, pp. 118-123	Market research and environment	environment	DFM, environment, economy
2021	E17	Additive manufacturing and its societal impact: a literature review	Samuel H. Huang and Peng Liu and Abhiram Mokasdar and Liang Hou	2013	Journal Article published Jul 2013 in The International Journal of Advanced Manufacturing Technology volume 67 issue 5-8 on pages 1191 to 1203	Market research and environment	environment	DFM, environment, economy, HEALTH
2021	E18	Predicting the future of additive manufacturing: A Delphi study on economic and societal implications of 3D printing for 2030	Ruth Jiang and Robin Kleer and Frank T. Piller	2017	Technological Forecasting and Social Change Volume 117, April 2017, Pages 84-97	Market research and environment	environment	economy
2021	E19	INFORME UNO. Análisis cualitativo del impacto de la impresión 3D en el sector médico y la reindustrialización	OPTFAIN, el Observatorio Permanente Tikoa de Fabricación Aditiva e Investigación Neoindustrial	2016	OPTFAIN, el Observatorio Permanente Tikoa de Fabricación Aditiva e Investigación Neoindustrial	Market research and environment	environment	economy
2021	E20	Wohlers Report 2001	Terry Wohlers	2001	Wohlers Associates	Market research and environment	environment	economy
2021	E21	Wohlers Report 2012	Terry Wohlers	2012	Wohlers Associates	Market research and environment	environment	economy
2021	E22	Wohlers Report 2013	Terry Wohlers	2013	Wohlers Associates	Market research and environment	environment	economy
2021	E23	Wohlers Report 2014	Terry Wohlers	2014	Wohlers Associates	Market research and environment	environment	economy
2021	E24	Wohlers Report 2015	Terry Wohlers	2015	Wohlers Associates	Market research and environment	environment	economy
2021	E25	Wohlers Report 2016	Terry Wohlers	2016	Wohlers Associates	Market research and environment	environment	economy
2021	E26	Wohlers Report 2017	Terry Wohlers	2017	Wohlers Associates	Market research and environment	environment	economy
2021	E27	Wohlers Report 2018	Terry Wohlers	2018	Wohlers Associates	Market research and environment	environment	economy
2021	E28	Estudio de Mercado, 3D Ingenieria BQ SAS	Javier Vargas Duque	2016	3D Ingenieria BQ SAS	Market research and environment	environment	economy
2017	OT1	Reverse modelling of natural rock joints using 3D scanning and 3D printing	Quan Jiang ⇑, Xiating Feng, Yanhua Gong, Leibo Song, Shuguang Ran, Jie Cui	2016	Computers and Geotechnics 73 (2016) 210–220	Other applications	another	modeling stone joints
2017	OT2	Constitutive parameter identification of 3D printing material based on the virtual fields method	Xianglu Dai, Huimin Xie	2015	Measurement 59 (2015) 38–43	Other applications	another	measurement
2017	OT3	On the use of computational multi-body dynamics analysis inSLS-based 3D printing	Hammad Mazhara, Tim Osswaldb, Dan Negruta,∗	2016	Additive Manufacturing xxx (2016) xxx–xxx	Other applications	another	measurement
2017	OT4	Workpiece and Machine Design in Additive Manufacturing for Multi-Axis Fused Deposition Modeling	Frederik Wullea,*, Daniel Coupeka, Florian Schäffnera, Alexander Verla, Felix Oberhoferb, Thomas Maierb	2017	Procedia CIRP 60 ( 2017 ) 229 – 234	Other applications	another	machine
2019	OT5	Sensing and control in glass additive manufacturing	Peters, D., Drallmeier, J., Bristow, D.A., Landers, R.G., Kinzel, E.	2018	Mechatronics 56, pp. 188-197	-	another	process control
2019	OT6	A Large Range Flexure-Based Servo System Supporting Precision Additive Manufacturing	Zhang, Z., Yan, P., Hao, G.	2017	Engineering 3(5), pp. 708-715	-	another	process control

References

[1] Luis Lisandro Lopez Taborda et al. Design methodology for Fused Filament Fabrication with failure theory: framework, knowledge base/ database, methodology. Universidad del Atlantico, Universidad del Norte, 3D Ingenieria BQ SAS, Barranquilla, Colombia, 2024

[2] L. L. Lopez Taborda, H. Maury, and J. Pacheco, “Design for additive manufacturing: a comprehensive review of the tendencies and limitations of methodologies,” Rapid Prototyp. J., vol. 27, no. 5, pp. 918–966, Jun. 2021.