Determination of hydrogen compatibility for Cu-Al-Ni-Fe-Mn cast alloys prepared by varying Al and Ni contents

Junichiro Yamabe; Ren Yoshimoto; Kentaro Wada; Takafumi Yano; Kojiro Fujiyama; Takashi Iijima; Hirotoshi Enoki

doi:10.1016/j.jallcom.2024.174766

論文 Determination of hydrogen compatibility for Cu-Al-Ni-Fe-Mn cast alloys prepared by varying Al and Ni contents

Junichiro Yamabe (Fukuoka University) ; Ren Yoshimoto (Fukuoka University) ; Kentaro Wada (Research Center for Structural Materials/Materials Evaluation Field/Cryogenic Fatigue Group, National Institute for Materials Science) ; Takafumi Yano (Takatori Seisakusho Co., Ltd.) ; Kojiro Fujiyama (Takatori Seisakusho Co., Ltd.) ; Takashi Iijima (National Institute of Advanced Science and Technology) ; Hirotoshi Enoki (National Institute of Advanced Science and Technology)

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Junichiro Yamabe, Ren Yoshimoto, Kentaro Wada, Takafumi Yano, Kojiro Fujiyama, Takashi Iijima, Hirotoshi Enoki. Determination of hydrogen compatibility for Cu-Al-Ni-Fe-Mn cast alloys prepared by varying Al and Ni contents. Journal of Alloys and Compounds. 2024, 997 (), 174766. https://doi.org/10.1016/j.jallcom.2024.174766

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(abstract)

Hydrogen compatibility of Cu-Al-Ni-Fe-Mn cast alloys was investigated via slow strain rate tensile tests in high-pressure hydrogen gas. Four types of alloys were prepared by varying the Al and/or Ni contents. Larger Al and Ni contents resulted in more elongated microstructures with smaller grains and more precipitates, respectively. The tensile strength of the alloys increased with larger Al and/or Ni contents, whereas the ductility decreased only by adding a larger amount of Al. The maximum tensile strength was produced by adding larger amounts of both Al and Ni, which was fairly higher than those of stable austenitic stainless steels. Despite the difference in the microstructures and tensile strengths of the alloys, the hydrogen contents and hydrogen diffusivities showed no substantial difference. Additionally, their reduction in area measured after the tensile tests was not degraded by the high-pressure hydrogen gas, revealing an excellent resistance to hydrogen embrittlement.

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