FRACTAL RESEARCH ON CRACKS PROPAGATION OF GAS PIPELINE X52 STEEL WELDING LINE UNDER HYDROGEN ENVIRONMENT 被引量：5

FRACTAL RESEARCH ON CRACKS PROPAGATION OF GAS PIPELINE X52 STEEL WELDING LINE UNDER HYDROGEN ENVIRONMENT

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摘要 Based on the theory of hydrogen enhanced localized plasticity of the hydrogen induced cracking and the consideration of the effect of the residual stress produced by eliminated stress heat-treatment, a fractal model of hydrogen induced cracking was presented, and the relationships among the effective surface energy (H), fractal dimension D and stress intensity factor of hydrogen induced cracking, KIH, for welding pipeline under hydrogen environment was set up, from which the relationship of D and KISCC was obtained. The model has been verified experimentally to be correct. Based on the theory of hydrogen enhanced localized plasticity of the hydrogen induced cracking and the consideration of the effect of the residual stress produced by eliminated stress heat-treatment, a fractal model of hydrogen induced cracking was presented, and the relationships among the effective surface energy (H), fractal dimension D and stress intensity factor of hydrogen induced cracking, KIH, for welding pipeline under hydrogen environment was set up, from which the relationship of D and KISCC was obtained. The model has been verified experimentally to be correct.

作者 S.H. Dong , Y.M. Lu, Y. Zhang and Q. Wu (Mechanics Electronic Department, University of Petroleum, Beijing 102200, China) (Department of Material Physics, University of Science and Technology Beijing, Beijing 100083, China) (Yan Shan University, Qinhuangd

出处《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2001年第3期219-226,共8页 金属学报（英文版）

关键词 Crack initiation Electric arc welding Environmental impact Fractals HYDROGEN Crack initiation Electric arc welding Environmental impact Fractals Hydrogen

分类号 TG40 [金属学及工艺—焊接]

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Acta Metallurgica Sinica(English Letters)

2001年第3期

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FRACTAL RESEARCH ON CRACKS PROPAGATION OF GAS PIPELINE X52 STEEL WELDING LINE UNDER HYDROGEN ENVIRONMENT 被引量：5

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