Studying the Formation of the Microstructure of Powdered Steel with Trip Effect by Direct Metal Deposition

被引:0
作者
O. A. Kupriyanova
D. A. Gorlenko
M. A. Sheksheev
K. G. Pivovarova
E. M. Ognyeva
M. A. Polyakova
机构
[1] Nosov Magnitogorsk State Technical University,
来源
Metallurgist | 2023年 / 67卷
关键词
additive technologies; powdered steel; TRIP effect; metal powder; direct metal deposition; microstructure;
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学科分类号
摘要
Additive technologies are currently considered strategically significant technologies that provide innovation- driven development of various industries. Relevant issues in the application of such technologies are the necessary microstructure of the synthesized material and the absence of defects. The results of studying the microstructure of samples produced by direct metal deposition of powdered steel with the TRIP effect are presented. Typical features of the microstructure of powdered TRIP-steel samples made by direct metal deposition and by conventional metallurgical production are established. The microstructures of samples produced by direct metal deposition of powdered TRIP steel and conventional metallurgical production technology are compared.
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页码:976 / 985
页数:9
相关论文
共 14 条
[1]  
Popovich AA(2020)Additive technologies as breakthrough solutions for creating advanced functional materials Metal Sci. Heat Treat. 62 18-24
[2]  
Denisova YuV(2018)Additive technologies in construction Stroit. Mater. Izd. 1 33-42
[3]  
Sheksheev MA(2023)Analysis of trends in the development of 3D printing technologies with metal-based powder materials Metallurgist 66 1282-1289
[4]  
Polyakova MA(1976)TRIP steels — a new class of high-strength steels with high plasticity Metal Sci. Heat Treat. 18 209-218
[5]  
Korchunov AG(2008)Advanced high strength steels for automotive industry Arch. Civil Mech. Eng. 8 103-117
[6]  
Konstantinov DV(2011)Selective laser melting of aluminium components J. Mater. Process. Technol. 211 275-284
[7]  
Georgieva I. Ya.(2012)Use of the Thixomet PRO software for quantitative analysis of the ultrafinegrain structure of low- and medium-carbon steels subjected to equal channel angular pressing Metal Sci. Heat Treat. 54 387-392
[8]  
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