Microstructure and Plasticity Evolution During Lüders Deformation in an Fe-5Mn-0.1C Medium-Mn Steel

Motomichi Koyama; Takayuki Yamashita; Satoshi Morooka; Takahiro Sawaguchi; Zhipeng Yang; Tomohiko Hojo; Takuro Kawasaki; Stefanus Harjo

doi:10.2355/isijinternational.ISIJINT-2021-510

Regular Article

Microstructure and Plasticity Evolution During Lüders Deformation in an Fe-5Mn-0.1C Medium-Mn Steel

Motomichi Koyama , Takayuki Yamashita, Satoshi Morooka, Takahiro Sawaguchi, Zhipeng Yang, Tomohiko Hojo, Takuro Kawasaki, Stefanus Harjo

Author information

Motomichi Koyama Corresponding author
Institute for Materials Research, Tohoku University [Japan]
Graduate School of Engineering, Tohoku University [Japan]
Elements Strategy Initiative for Structural Materials (ESISM), Kyoto University [Japan]
Takayuki Yamashita
Joining and Welding Research Institute, Osaka University [Japan]
Satoshi Morooka
Materials Science Research Center, Japan Atomic Energy Agency [Japan]
Takahiro Sawaguchi
National Institute for Materials Science [Japan]
Zhipeng Yang
Institute for Materials Research, Tohoku University [Japan]
Graduate School of Engineering, Tohoku University [Japan]
Tomohiko Hojo
Institute for Materials Research, Tohoku University [Japan]
Graduate School of Engineering, Tohoku University [Japan]
Takuro Kawasaki
J-PARC Center, Japan Atomic Energy Agency [Japan]
Stefanus Harjo
J-PARC Center, Japan Atomic Energy Agency [Japan]

Keywords: medium-Mn steel, Lüders deformation, local plasticity, martensitic transformation, neutron diffraction

JOURNAL OPEN ACCESS FULL-TEXT HTML

2022 Volume 62 Issue 10 Pages 2036-2042

DOI https://doi.org/10.2355/isijinternational.ISIJINT-2021-510

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Abstract

The local plasticity and associated microstructure evolution in Fe-5Mn-0.1C medium-Mn steel (wt.%) were investigated in this study. Specifically, the micro-deformation mechanism during Lüders banding was characterized based on multi-scale electron backscatter diffraction measurements and electron channeling contrast imaging. Similar to other medium-Mn steels, the Fe-5Mn-0.1C steel showed discontinuous macroscopic deformation, preferential plastic deformation in austenite, and deformation-induced martensitic transformation during Lüders deformation. Hexagonal close-packed martensite was also observed as an intermediate phase. Furthermore, an in-situ neutron diffraction experiment revealed that the pre-existing body-centered cubic phase, which was mainly ferrite, was a minor deformation path, although ferrite was the major constituent phase.

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