工业纯铁中形变对氢渗透的作用

中国腐蚀与防护学报

1986, Vol. 6

Issue (1): 42-48

研究报告

本期目录 | 过刊浏览

工业纯铁中形变对氢渗透的作用

朱日彰;童建筑;张文奇

北京钢铁学院;北京钢铁学院;北京钢铁学院

THE EFFECT OF DEFORMATION ON HYDROGEN PERMEATION IN IRON

Zhu Rizhang Tong Jianzhu and Zhang Wenqi (Beijing University of Iron and Steel Technology)

全文: PDF(624 KB)

摘要: 形变对氢渗透的作用与拉伸过程及实验初始和边界条件有关。当初始条件是样品中未充氢时,形变不利于氢渗透;当初始条件是样品中充满氢时,形变有助于氢向外渗出。当边界条件是维持充氢时,形变不利于氢渗透;在停止充氢的条件下,形变使氢通量衰减速度增加。

Abstract：The effect of deformation on hydrogen permeation in iron is related to tension state as well as the initial and boundary conditions of experiments When initial condition is that specimens are hydrogen free, dislocation is hydrogen trap。When initial condition is that specimens are precharged to a steady state, and then, charging is discontinued so that hydrogen is released from the specimens, dislocation carries hydrogen and accelerates hydrogen evolution. Under the second case, if the boundary condition is that charging is maintained, dislocation accelerates trapping of hydrogen; and if charging is stopped, dislocation accelerates hydrogen evolution.

收稿日期: 1986-02-25

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朱日彰;童建筑;张文奇. 工业纯铁中形变对氢渗透的作用[J]. 中国腐蚀与防护学报, 1986, 6(1): 42-48.
. THE EFFECT OF DEFORMATION ON HYDROGEN PERMEATION IN IRON. J Chin Soc Corr Pro, 1986, 6(1): 42-48.

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https://www.jcscp.org/CN/ 或 https://www.jcscp.org/CN/Y1986/V6/I1/42

[1] Eastman, J., Matsumoto, T.,Narita, N.,Heubaum, F.,Birbbaum, H. K., Hgdrogen Effect in Metal, [Proc. Conf], Moran, Wyo, 26-31, Aug. 1980, TMS/AIME, P.O.Box4 30, 4 20,Commen wealth Dr.,Warrendale,Pa.15086, 397 (1981)
[2] Kimura, H., Matsui,H., Kinuwra; A.kinik, Kimura, T.,Oguri,K.Ref.[1] , 191．
[3] Asano, S., Otsuta, R., Scr. Met., 10, 1015(1976)
[4] Gozwrmelon, A., Mem. Sci. Rev. Met., 72, 475 (1975)
[5] Nagakama, J., shin, K. S.; Park, C. G., Meshii, M. and Japanese Institute of Metls Symposium on Hyclrogen in Metals, Tokyo, Nov. (1979) : C. G.Park, K.S. Shin, J. Nagakama and M. Meshii: Scr Met, 14, 270(1980)
[6] Bastien, P., Azou, P., Procedings of the Ist World Metallurgical Congress, ASM 535 (1951)
[7] Frank, R. C., Internal Stresses and Fatigue in Metals, G. M. Rassweiler and W. L. Grube, eds, PP. 411, Elsevier, New Yovk, (1959) .
[8] Donovan, J. A., Met. Trans.A,7A, 145 (1976)
[9] Kurkela, M., Latanison, R. M., Scr. Met., 13, 927 (1979)
[10] Pressouyre, G. M., Bernstien, I. M., Metall. Trans. A, 12A, 83(1981)
[11] Hirth, J. P., Mefall. Trans. A, 11A, 861(1980)
[12] Gibala, R., Stress Corrosion Cracking and Hychogen Embrittlement of Iron Ba se Alloys, R. W. Staehle, J. Hochmann, R. D. Mecright and J. E. Slater, ecls., NACE-5, NACE, Houston, TX, 244(1977)
[13] Kummick, A. J., Johnson, H. H., Acta Met, 28, 33 (1980)
[14] Pressouyre, G. M., Bernstien, I、M., Metall. Trans. A, 9A, 1571(1978)
[15] Kurkela, M.. Frankel, G. S., Latanision, R. M., Saresh, S., Ritchie, R. O., Scr. Metall., 16, 455 (1982)
[16] Bockris, J. O'M; Subramanyan, P. K., J. Electrochem. Soc., 118,1114(1971)

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