Alternative title: In situ Neutron Diffraction Study on the Strength and Ductility Enhancement Mechanism of Hydrogen-charged SUS310S Stainless Steel
Description:
(abstract)Recent studies have shown that the addition of hydrogen to SUS310S stainless steel (Fe–24Cr–19Ni, mass%) simultaneously enhances both strength and ductility, indicating a phenomenon contrary to the conventional understanding of hydrogen embrittlement. In this study, we investigated the underlying mechanism through in situ neutron diffraction experiments during tensile deformation using TAKUMI at the MLF of J-PARC. The results revealed that solid-solution strengthening by hydrogen plays the most significant role in improving the mechanical properties. Solute hydrogen atoms distort the lattice to suppress dislocation motion, thereby increasing the strength. The raised stress in the hydrogen charged sample enables the onset of deformation twinning at a smaller strain compared to the non-hydrogen charged sample. Consequently, the twinning-induced plasticity effect contributes more significantly to work hardening and the improvement of uniform elongation due to the solid-solution strengthening by hydrogen. These findings suggest a new pathway for the effective utilization of hydrogen in austenitic steels.
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Date published: [2025年8月]
Publisher: 日本中性子科学会
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Manuscript type: Publisher's version (Version of record)
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First published URL: https://ndlsearch.ndl.go.jp/books/R100000002-I000004327911-i33660737
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Updated at: 2025-11-13 16:30:10 +0900
Published on MDR: 2025-11-13 16:24:24 +0900
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