中性子回折測定によるRietveld解析を用いた低合金TRIP鋼の相変態観察

梅村 和希; 小貫 祐介; 星川 晃範; 富田 俊郎; 田中 泰明; 藤原 知哉; 諏訪 嘉宏; 河野 佳織; 佐藤 成男

doi:10.57415/xshinpo.53.0_231

Analytical Application

Observation of Phase Transformation of Low-Alloyed TRIP Steel by Using Rietveld Analysis with Neutron Diffraction

Kazuki UMEMURA, Yusuke ONUKI, Akinori HOSHIKAWA, Toshiro TOMIDA, Yasuaki TANAKA, Kazuki FUJIWARA, Yoshihiro SUWA, Kaori KAWANO, Shigeo SATO

Author information

Kazuki UMEMURA
Graduate School of Science and Engineering, Ibaraki University
Yusuke ONUKI
Frontier Research Center for Advanced Atomic Sciences, Ibaraki University
Akinori HOSHIKAWA
Frontier Research Center for Advanced Atomic Sciences, Ibaraki University
Toshiro TOMIDA
Frontier Research Center for Advanced Atomic Sciences, Ibaraki University
Yasuaki TANAKA
Advanced Technology Research Labs., Technical Research & Development Bureau, Nippon Steel Corporation
Kazuki FUJIWARA
Nippon Steel Research Institute Corporation
Yoshihiro SUWA
Advanced Technology Research Labs., Technical Research & Development Bureau, Nippon Steel Corporation
Kaori KAWANO
Advanced Technology Research Labs., Technical Research & Development Bureau, Nippon Steel Corporation
Shigeo SATO
Graduate School of Science and Engineering, Ibaraki University

Keywords: Neutron diffraction, Rietveld analysis, Bainite transformation, Texture, Transformation-induced-plasticity steel

JOURNAL FREE ACCESS

2022 Volume 53 Pages 231-241

DOI https://gongyi-jschina-com-cn-1416.res.gxlib.org.cn:443/rwt/1416/https/MSYXTLUQPJUB/10.57415/xshinpo.53.0_231

Details

Abstract

Time-of-Flight neutron diffraction measurements were performed to investigate microstructural evolution during bainitic transformation of a low-alloyed transformation induced plasticity steel. Phase fractions of austenite and ferrite phases during the transformation are determined by analyzing diffraction intensities by the Rietveld method. March-Dollase (MD) and Extended Williams-Imhof-Matthies-Vihel (E-WIMV) methods were also employed in the Rietveld analysis to correct effects of crystallographic textures on the diffraction intensities. It was confirmed that the E-WIMV method could correct the influence of textures on the diffraction intensity with higher accuracy than the MD method. The analysis revealed the presence of low-carbon and high-carbon austenite phases during the bainitic transformation. Ex-situ measurements on quenched samples using electron microscopy and X-ray diffraction confirmed that the low-carbon and high-carbon austenite phases observed by neutron diffraction were those transformed to a martensite phase and retained as an austenite phase at room temperature, respectively.

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