Effect of diffusion coefficient variation on interrelation between hydrogen diffusion and induced internal stress in hydrogen storage alloys

抄録

A diffusion behavior of hydrogen in a hydrogen storage alloy is affected by not only hydrogen concentration but also the stress induced by hydrogen atom expanding the lattice of the alloy. The uphill diffusion in which hydrogen diffused against the concentration gradient due to the stress has been observed. Moreover, the fugacity of hydrogen in the alloy deviates from unity significantly even at low hydrogen concentration, which decreases the flux. In this paper, the effect of the stress and the diffusion coefficient variation with the concentration on hydrogen diffusion at low concentration was investigated using the finite element analysis. As a result, the variable diffusion coefficient model combined with the stress effect showed better agreement with the experimental result than Fick's diffusion models and the constant coefficient SID model. It was concluded that the effect should be considered even if the concentration is low.

本文言語英語
ページ(範囲)705-712
ページ数8
ジャーナルJournal of Alloys and Compounds
691
DOI
ジャーナル掲載日出版済み - 2017 1 15

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Hydrogen
Hydrogen storage alloys
Residual stresses
Fluxes
Finite element method
Atoms

Keywords

    ASJC Scopus subject areas

    • Mechanics of Materials
    • Mechanical Engineering
    • Metals and Alloys
    • Materials Chemistry

    これを引用

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    title = "Effect of diffusion coefficient variation on interrelation between hydrogen diffusion and induced internal stress in hydrogen storage alloys",
    keywords = "Actuator, Finite element analysis, Fugacity, Palladium alloy, Stress induced diffusion",
    author = "Kenta Goto and Shingo Ozaki and Wataru Nakao",
    year = "2017",
    month = "1",
    doi = "10.1016/j.jallcom.2016.08.288",
    volume = "691",
    pages = "705--712",
    journal = "Journal of Alloys and Compounds",
    issn = "0925-8388",
    publisher = "Elsevier BV",

    }

    TY - JOUR

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    AU - Goto,Kenta

    AU - Ozaki,Shingo

    AU - Nakao,Wataru

    PY - 2017/1/15

    Y1 - 2017/1/15

    N2 - A diffusion behavior of hydrogen in a hydrogen storage alloy is affected by not only hydrogen concentration but also the stress induced by hydrogen atom expanding the lattice of the alloy. The uphill diffusion in which hydrogen diffused against the concentration gradient due to the stress has been observed. Moreover, the fugacity of hydrogen in the alloy deviates from unity significantly even at low hydrogen concentration, which decreases the flux. In this paper, the effect of the stress and the diffusion coefficient variation with the concentration on hydrogen diffusion at low concentration was investigated using the finite element analysis. As a result, the variable diffusion coefficient model combined with the stress effect showed better agreement with the experimental result than Fick's diffusion models and the constant coefficient SID model. It was concluded that the effect should be considered even if the concentration is low.

    AB - A diffusion behavior of hydrogen in a hydrogen storage alloy is affected by not only hydrogen concentration but also the stress induced by hydrogen atom expanding the lattice of the alloy. The uphill diffusion in which hydrogen diffused against the concentration gradient due to the stress has been observed. Moreover, the fugacity of hydrogen in the alloy deviates from unity significantly even at low hydrogen concentration, which decreases the flux. In this paper, the effect of the stress and the diffusion coefficient variation with the concentration on hydrogen diffusion at low concentration was investigated using the finite element analysis. As a result, the variable diffusion coefficient model combined with the stress effect showed better agreement with the experimental result than Fick's diffusion models and the constant coefficient SID model. It was concluded that the effect should be considered even if the concentration is low.

    KW - Actuator

    KW - Finite element analysis

    KW - Fugacity

    KW - Palladium alloy

    KW - Stress induced diffusion

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