METALS AND ALLOYS OBTAINING BY ALTERNATIVE 3D PRINTING METHOD
Keywords:
printing,, bronze,, silicon,, metal oxidesAbstract
For the purpose of present work it has been developed and assembled an experimental setup for the layered synthesis of metals and alloys. Based on the experiments a sample with heterogeneous structure was obtained which determined by scanning electron microscopy. Results of energy dispersive spectroscopy and X-ray diffraction showed the presence of individual phases of CuSn compound (bronze), lead, silicon, and metal oxides. For the additional confirmation of bronze alloy presence in a sample, the Vickers microhardness tests were carried out.References
(1). Дмитриев, Т.П., Топанов, Б.Г., Алиев, Е.Т., & Мансуров, З.А. (2015). Разработка установки для применения технологии послойного синтеза (3D принтинг) металлических изделий с плазменным источником энергии. В Proceedings of the Joint International VIII Symposium "Combustion & Plasmachemistry" and Scientific & Technical Conference "Energy Efficiency-2015", Almaty, 16-18 сентября.
(2). Khoshnevis, B., & Zhang, J. (2015). Selective Separation Sintering (SSS) - An Additive Manufacturing Approach for Fabrication of Ceramic and Metallic Parts with Application in Planetary Construction. В AIAA SPACE 2015 Conference and Exposition.
(3). Колачев, Б.А., Ливанов, В.А., & Благин, В.И. (1972). Металловедение и термическая обработка цветных металлов и сплавов. Москва: Металлургия, 480 с.
(4). Осинцев, О.Е., & Федоров, В.Н. (2004). Медь и медные сплавы. Отечественные и зарубежные марки: справочник. Москва: Машиностроение, 336 с.
(5). Фетисов, Г.П., Карпман, М.Г., & Матюнин, В.М. (2000). Материаловедение и технология материалов. Москва: В.Ш., 182 с.