An experience of manufacturing a complex ceramic part using the additive technology LCM (Lithography-based Ceramic Manufacturing) and an analysis of the economic feasibility of its use in serial and pilot production of ceramic parts in comparison with slip casting technology are presented.
The results obtained are of interest in the development and manufacture of new complex experimental ceramic parts and the choice of technology, batch production equipment
Krakhmatova V.Yu., Zakharov A.I., Andreev D.V., Krivoshchepov A.F. Methods of additive technologies for the production of ceramic products (review) // Glass and ceramics. 2018.? 12, p. 26? 33.
? Krakhmatova V. Yu., Zakharov AI, Andreev DV, Krivoshchepov AF Methods of Additive Technologies for the Manufacture of Ceramic Products (Review) // Glass Ceram. 2018. V. 75. No. eleven ? 12.P. 479? 484.?
Zlenko M. A., Popovich A. A., Mutylina I. N. Additive technologies in mechanical engineering. SPb .: SPbGU, 2013.221 p.
Filatov S.A. Additive technologies: current state and prospects // Prospects for the development of additive technologies in the Republic of Belarus. Minsk, 2017.S. 115? 117.
Slips VV, Zhukov IA, Vorozhtsov SA An additive method for molding products from powders of refractory compounds // Polzunovsky Bulletin. 2016.Vol. 1.? 4.S. 59? 63.
Zlenko M., Zabednov P. Additive technologies in pilot casting production. Part I. Casting of metals and plastics with the use of synthesis models and synthesis forms // Metallurgy of mechanical engineering. 2013.? 2.S. 45? 54.
The article can be purchased
electronic!
PDF format
700 руб
UDK 666.3:621.7:338.5
Article type:
Science for ceramic production
Make a request
