Comparative Study of Stress and Strain Partitioning Behaviors in Medium Manganese and Transformation-Induced Plasticity-Aided Bainitic Ferrite Steels

Tomohiko Hojo, M. Koyama, Bakuya Kumai, Y. Shibayama, A. Shiro, T. Shobu, H. Saitoh, Saya Ajito, E. Akiyama
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引用次数: 7

Abstract

The origins of the superior work hardening capability of medium manganese (M-Mn) and conventional transformation-induced plasticity-aided bainitic ferrite (TBF) steels of similar tensile strength and elongation are comparatively investigated via synchrotron X-ray diffraction measurements. The M-Mn steel undergoes preferential plastic deformation in austenite; its superior work hardening capability and associated uniform elongation are attributed to the high rates of martensitic transformation and dislocation accumulation per strain in the retained austenite. By contrast, the excellent work hardening behavior and uniform elongation of the TBF steel are attributed to the sustained transformability until the occurrence of a large strain and significant stress partitioning between the face-centered cubic (FCC) and body-centered cubic (BCC) phases due to the high austenite phase stability and high resistance to slip deformation of austenite.
中锰与相变诱导塑性辅助贝氏体铁素体钢应力应变分配行为的比较研究
通过同步x射线衍射测量,对比研究了具有相似抗拉强度和延伸率的中锰(M-Mn)钢和传统相变诱导塑性辅助贝氏体铁素体(TBF)钢优异加工硬化性能的原因。M-Mn钢在奥氏体中发生优先塑性变形;其优越的加工硬化能力和相关的均匀伸长率归因于马氏体转变和每应变中保留的奥氏体中位错积累的高速率。相比之下,TBF钢优异的加工硬化行为和均匀伸长率归因于高奥氏体相稳定性和高抗滑移变形能力,在大应变和面心立方相(FCC)和体心立方相(BCC)之间发生显著的应力分配之前具有持续的可变形性。
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