Simultaneous Increase of Both Strength and Ductility of Medium Mn Transformation-Induced Plasticity Steel by Vanadium Alloying

被引:0
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作者
B. B. He
M. X. Huang
机构
[1] The University of Hong Kong,Shenzhen Institute of Research and Innovation
[2] The University of Hong Kong,Department of Mechanical Engineering
来源
Metallurgical and Materials Transactions A | 2018年 / 49卷
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摘要
In general, microalloying such as vanadium (V) is considered to deteriorate the mechanical stability of austenite grains in medium Mn steel due to the consumption of C content. In this paper, we show that the mechanical stability of austenite grains could be optimized by V-alloying. This is because the V-alloying will refine the austenite grain size and tends to stabilize the austenite grains. The competition between the grain refinement and the reduced C content results in proper mechanical stability of austenite grains, providing continuous transformation-induced plasticity (TRIP) effect. In addition, the V-alloying suppresses the formation of intergranular cracks, leading to a ductile fracture morphology and a large non-uniform elongation.
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页码:1433 / 1438
页数:5
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