金属学报  1983, Vol. 19 Issue (1): 26-140

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氚示踪法研究氢在金属中的分布

杨师信;尹万全

冶金工业部钢铁研究总院;中国科学院金属研究所

INVESTIGATION OF HYDROGEN DISTRIBUTION IN METALS BY TRITIUM AUTORADIOGRAPHY

YANG Shixin (Central Iron and Steel Research Institute; Ministry of Metallurgical Industry; Beijing); YIN Wanquan (Institute of Metal Research; Academia Sinica; Shenyang)

杨师信;尹万全. 氚示踪法研究氢在金属中的分布[J]. 金属学报, 1983, 19(1): 26-140.
, . INVESTIGATION OF HYDROGEN DISTRIBUTION IN METALS BY TRITIUM AUTORADIOGRAPHY[J]. Acta Metall Sin, 1983, 19(1): 26-140.

摘要 参考文献 相关文章 Metrics 全文: PDF(4118 KB)   摘要: 氚自射线照相法是观察低含量氢微观分布的有效手段之一。本工作利用氚示踪法研究:1.在不同纯度Fe中氢的分布规律;2.在局部应力状态下氢的扩散行为;3.在液相烧结钨合金中氢的分布;4.氢在堆焊接头不同区域的分布特征。实验结果表明,氢的分布特性与相结构、应力状态和碳陷阱有关。 Abstract：Tritium autoradiography was employed for the identification of: 1. the hydrogen distribution in irons with different purities; 2. the diffusion behavior uof hydrogen in metal under local load for different stress stand; 3. the distribution of tritium in the W alloys, 95%W-3.5%Ni-1.5%Fe, a kind of two-phase alloys consisted from W particles and binder of solution 54.2%Ni-27.1%Fe-20.5%W with high specific gravity and 4. the hydrogen distribution of different zones for the weld joint. It was found that the hydrogen distribution of iron is dependent on the purity of iron and the hydrogen solubility in the iron, however, grain boundary of high purity iron cannot be provided preferred sites for hydrogen accumulation site, but grain orientation difference is sensitive for tritium tracer. Tritium redistribution of hydrogen in different purity iron under different plastic deformation by the stress induced hydrogen segregation on the iron. Tritium distribution on the W-Ni-Fe sintcring alloys, even without etching, it is primarily accumulated on the interface of binding phase, which is dependent on relative solubility in two-phase alloys. The distribution of tritium on the different zone of the weld joint shows that hydrogen in the austenite weld, fusion zone. Overheat affected zone of matrix and matrix is different, which is closely connection of the carbon segregation of weld process and structure defect of matrix. 收稿日期: 1983-01-18      服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 杨师信 尹万全 44.8K 链接本文: https://www.ams.org.cn/CN/      或      https://www.ams.org.cn/CN/Y1983/V19/I1/26 1 Williams, P.; Evans, C. A., Jr., Anal. Chem., 48(1976) , 964． 2 De Oliverira, C. P.; Aucouturier, M.; Lacombe, P., Corrosion, 36(1980) , 53． 3 Ohma, H.; Tiwari, G. P.; Lijima, Y.; Hirano, K., Proceedings JIMIS-2, Hydrogen in Metals, Minakami, Gunma Perf., Japan 1979, Published by JIM, Aoba Aramaki, Japan, 1980, p. 229． 4 Taguchi, I., Proceedings JIMIS-2, Hydragen in Metals, Minakami, Gunma Perf., Japan 1979, Published by JIM, Aoba Aramaki, Japan, 1980 p. 225． 5 Aucouturier, M.; Lapasset, G.; Asoka, T., Metallography, 11(1978) , 5． 6 Louthan, M. R., Jr.; Rawl, D. E., Jr.; Huntoon, R. T., Corrosion, 28(1972) , 172． 7 Zielimski, A.; Lunarska, E.; Smialowski, M., Acta Metall., 25(1977) , 551． 8 朱桂森;刘铭成;林忠杰;俞淑延,金属学报,17(1981) ,39． No related articles found! Viewed Full text Abstract Cited   Shared      Discussed