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熊谷 正芳*; 黒田 雅利*; 松野 崇*; Harjo, S.; 秋田 貢一*
Materials & Design, 221, p.110965_1 - 110965_8, 2022/09
被引用回数:4 パーセンタイル:41.53(Materials Science, Multidisciplinary)Microstructural evolution in austenitic stainless steels during cyclic plastic deformation has been studied via diffraction line profile analysis; however, their microstructure-dependent mechanical response upon stress partitioning in the matrix (austenite) and deformation-induced martensite has remained largely unexplored. In this study, the stress response analysis of austenitic stainless steel was performed using neutron diffraction, to evaluate the phase stresses in the austenite and martensite, and the relation with dislocation data was discussed.
柴山 由樹; 北條 智彦*; 小山 元道*; 齋藤 寛之*; 城 鮎美*; 安田 良*; 菖蒲 敬久; 松野 崇*; 秋山 英二*
ISIJ International, 61(4), p.1322 - 1329, 2021/04
被引用回数:3 パーセンタイル:25.78(Metallurgy & Metallurgical Engineering)The effects of stress and plastic strain distributions on the hydrogen embrittlement fracture of the U-bent martensitic steel sheet specimen were investigated. The hydrogen embrittlement testing of the U-bent specimen was performed. Fracture morphology mainly consisting of intergranular fracture was found inside the hydrogen charged U-bent specimen, which indicated that the crack initiation took place in the interior, and shear lips were found near both surfaces of the U-bent sheet. The synchrotron X-ray diffraction measurement and the finite element simulation were utilized to analyze the stress and plastic strain distributions in the thickness direction of the U-bent specimen. The elastic strain distributions obtained by the measurement showed a good agreement with the simulation. The crack initiation site of the hydrogen-charged U-bent specimen was considered to be correspondent with the region where the tensile stress was the highest, suggesting that the maximum tensile stress predominantly determine the crack initiation.