Effect of Silicon Content on Thermodynamics of Austenite Decomposition in C-Si-Mn TRIP Steels 被引量：4

Effect of Silicon Content on Thermodynamics of Austenite Decomposition in C-Si-Mn TRIP Steels

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摘要 Some numerical models such as central atoms model （CAM） and superelement model were used to simulate the thermodynamics of austenite decomposition in the Fe-C-Mn-Si TRIP （transformation induced plasticity） steels. Thermodynamic calculations were carried out under a para-equilibrium （PE） condition. The results show that certain silicon content can accelerate the polygonal ferritic transformation and increase the volume fraction and stability of retained austenite by retarding the precipitation of carbides during the bainitic transformation. Some numerical models such as central atoms model （CAM） and superelement model were used to simulate the thermodynamics of austenite decomposition in the Fe-C-Mn-Si TRIP （transformation induced plasticity） steels. Thermodynamic calculations were carried out under a para-equilibrium （PE） condition. The results show that certain silicon content can accelerate the polygonal ferritic transformation and increase the volume fraction and stability of retained austenite by retarding the precipitation of carbides during the bainitic transformation.

作者 ZHU Li-juan WU Di ZHAO Xian-ming

机构地区 State Key Lab of Rolling and Automation

出处《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2006年第3期57-60,73,共5页

基金 Item Sponsored by National Natural Science Foundation of China (50334010)

关键词 central atoms model superelement model para-equilibrium austenite decomposition TRIP steel central atoms model superelement model para-equilibrium austenite decomposition TRIP steel

分类号 TG142 [金属学及工艺—金属材料]

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参考文献8

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Effect of Silicon Content on Thermodynamics of Austenite Decomposition in C-Si-Mn TRIP Steels 被引量：4

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