Effect of Ordering on Embrittlement of Ni4Mo Alloy in Hydrogen Gas 被引量：2

Effect of Ordering on Embrittlement of Ni4Mo Alloy in Hydrogen Gas

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摘要 The fracture behavior of disordered and ordered Ni4Mo alloy was investigated by tensile tests in hydrogen gas or during hydrogen charging. The results show that the ductility of the disordered alloy decreased slightly with the hydrogen pressure increasing, while that of the ordered alloy decreased rapidly with the hydrogen pressure increasing. However, the ductility of both disordered and ordered alloys reduced similarly seriously with the charging current density increasing. Therefore, the mechanism of order-induced embrittlement of Ni4 Mo alloy in hydrogen gas is supposed to be that atomic order accelerates the kinetics of the catalytic reaction for the dissociation of molecular H2 into atomic H. The fracture behavior of disordered and ordered Ni4Mo alloy was investigated by tensile tests in hydrogen gas or during hydrogen charging. The results show that the ductility of the disordered alloy decreased slightly with the hydrogen pressure increasing, while that of the ordered alloy decreased rapidly with the hydrogen pressure increasing. However, the ductility of both disordered and ordered alloys reduced similarly seriously with the charging current density increasing. Therefore, the mechanism of order-induced embrittlement of Ni4 Mo alloy in hydrogen gas is supposed to be that atomic order accelerates the kinetics of the catalytic reaction for the dissociation of molecular H2 into atomic H.

作者程晓英李慧改

机构地区 Institute of Materials

出处《Journal of Shanghai University(English Edition)》 CAS 2005年第6期544-549,共6页 上海大学学报（英文版）

基金 Project supported by National Natural Science Foundatron of China（ Grant No.59895157）, and Science Foundation of Shanghai Municipal Commission of Science and Technology （Grant No. 02ZE14033 ）

关键词 Ni4Mo alloy hydrogen embrittlement order DISORDER hydrogen gas hydrogen charging. Ni4Mo alloy, hydrogen embrittlement, order, disorder, hydrogen gas, hydrogen charging.

分类号 TG146.15 [金属学及工艺—金属材料]

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Journal of Shanghai University(English Edition)

2005年第6期

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