-
[1] Gibson, L., Rosen, D. and Stucker, B., 2009, Additive manufacturing technologies: rapid prototyping to direct digital manufacturing, Springer New York Heidelberg Dordrecht London.
-
[2] EPMA, 2019, Introduction to Additive Manufacturing Technology, third edition, European Powder Metallurgy Association. https://www.epma.com/epma-free-publications/product/introduction-to-additive-manufacturing-brochure.
-
[3] Meier, Ch., Penny, R., Zou, Y., Gibbs J. S. and Hart, A. J., 2014, “Thermophysical Phenomena in Metal Additive Manufacturing by Selective Laser Melting: Fundamentals, Modeling, Simulation and Experimentation”, Annual Review of Heat Transfer, 20, pp. 241-316. 10.1615/AnnualRevHeatTransfer.2018019042.
-
[4] Yadroitsau, I., 2008, “Fabrication directe d’objets 3D par fusion sélective laser à partir des poudres métalliques”. PhD thesis, Université Jean-Monnet.
-
[5] Kozak, J., 2018, Mathematical Modelling of Advanced Manufacturing Processes. Institute of Aviation Scientific Publications Division, ISBN: 978-83-63539-49-8, Warsaw, Poland.
-
[6] https://www.google.pl/search?q=ge+3d+printed+jet+engine&client=opera&biw=1240&bih=610&tbm=isch&tbo=u&source=univ&sa=X&ved=0ahUKEwiAycD_1snbAhXmd-poKHdPgCFMQsAQIlQE.
-
[7] Kozak, J. and Zakrzewski T., 2018, “Accuracy problems of additive manufacturing using SLS/SLM processes”, AIP Conference Proceedings.
-
[8] Carslow, H. S. and Jaeger, J. C., 1959, Conduction of Heat in Solids, Oxford University Press,Oxford, UK.
-
[9] Alexiades, V. and Solomon, A. D., 1993, Mathematical Modeling of Melting and Freezing Processes, Washington: Hemisphere Publishing Corporation.
-
[10] Cohen, M. I. and Epperson, J. P., 1968, “Application of Lasers to Microelectronic Fabrication”, Advances in Electronics and Electron Physics, pp. 139-186.