T. Wohlers, Additive manufacturing and 3D printing state of the industry. Annual Worldwide progress report, 2017.

A. K. Sood, R. K. Ohdar, and S. S. Mahapatra, Parametric appraisal of mechanical property of fused deposition modelling processed parts, Mater Des, vol.31, pp.287-295, 2010.

M. N. Hafsa, M. Ibrahim, S. Sharif, M. Omar, and M. A. Zainol, Evaluation of Different Internal Structure and Build Orientation for Multijet Modeling Process, Appl Mech Mater, vol.315, pp.587-591, 2013.

G. A. Teitelbaum and L. C. Schmidt, Proposed Build Guidelines for Use in Fused Deposition Modeling to Reduce Build Time and Material Volume, Proc ASME Int Design Eng Tech, p.10, 2009.

Z. Zhu, V. Dhokia, and S. T. Newman, A new algorithm for build time estimation for fused filament fabrication technologies, Proc Inst Mech Eng, vol.230, pp.2214-2228, 2016.

A. Boschetto, L. Bottini, and F. Veniali, Finishing of Fused Deposition Modeling parts by CNC machining, Robot Comput Integr Manuf, vol.41, pp.92-101, 2016.

G. D. Kim and Y. T. Oh, A benchmark study on rapid prototyping processes and machines: quantitative comparisons of mechanical properties, accuracy, roughness, speed, and material cost, Proc Inst Mech Eng, vol.222, p.215, 0201.

I. Durgun and R. Ertan, Experimental investigation of FDM process for improvement of mechanical properties and production cost, Rapid Prototyp J, vol.20, pp.228-235, 2014.

M. Baumers, C. Tuck, P. Dickens, and R. Hague, How Can Material Jetting Systems be Upgraded for More Efficient Multi-Material Additive Manufacturing?, Proc Solid Free Fabr Symp, vol.170, p.184, 2014.

M. Baumers, C. Tuck, R. Wildman, I. Ashcroft, and R. Hague, Energy inputs to additive manufacturing: Does capacity utilization matter, Solid Free Fabr Symp, vol.30, p.40, 2011.

M. Baumers, C. Tuck, R. Hague, I. Ashcroft, and R. Wildman, A comparative study of metallic additive manufacturing power consumption, Solid Free Fabr Symp, vol.278, p.288, 2009.

H. S. Yoon, J. Y. Lee, H. S. Kim, M. S. Kim, E. S. Kim et al., A comparison of energy consumption in bulk forming, subtractive, and additive processes: Review and case study, Int J Precis Eng Manuf Technol, vol.1, pp.261-279, 2014.

C. Telenko and C. C. Seepersad, A comparative evaluation of energy consumption of Selective Laser Sintering and Injection Molding of Nylon parts, Solid Free Fabr Symp, vol.41, p.54, 2012.

L. Bourhis, F. Kerbrat, O. Hascoet, J. Y. Mognol, and P. , Sustainable manufacturing: evaluation and modeling of environmental impacts in additive manufacturing, Int. J Adv Manuf Technol, vol.69, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00881866

K. Kellens, W. Dewulf, M. Overcash, M. Z. Hauschild, and J. R. Duflou, Methodology for systematic analysis and improvement of manufacturing unit process life cycle inventory (UPLCI) CO2PE! initiative (cooperative effort on process emissions in manufacturing). Part 1: Methodology description, Int J Life Cycle Assess, vol.17, pp.69-78, 2012.

K. Kellens, W. Dewulf, M. Overcash, M. Z. Hauschild, and J. R. Duflou, Methodology for systematic analysis and improvement of manufacturing unit process life cycle inventory (UPLCI) CO2PE! initiative (cooperative effort on process emissions in manufacturing). Part 2: Case studies, Int J Life Cycle Assess, vol.17, p.251, 2012.

A. Boschetto, V. Giordano, and F. Veniali, 3D roughness profile model in fused deposition modelling, Rapid Prototyp J, vol.19, pp.240-252, 2013.

L. Bourhis, F. Kerbrat, O. Dembinski, L. Hascoet, J. Y. Mognol et al., Predictive Model for Environmental Assessment in Additive Manufacturing Process, Procedia CIRP, vol.15, pp.26-31, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01613643