Dissolution-facilitating Dislocation Emission, Motion andInitiation of SCC in 310 Stainless Steel 被引量：2

Dissolution-facilitating Dislocation Emission, Motion and Initiation of SCC in 310 Stainless Steel

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摘要 Using a special constant deflection device, the in situ TEM observations of dislocation emission, motion and the initiation of nanocrack in 310 stainless steel in water were carried out. The results show that SCC in thin foil specimen of 310 stainless steel can occur in water. A nanocrack initiated in the DFZ or at the blunt crack tip in corrosion solution after dislocation emission, multiplication and motion, which were induced by the localized anodic dissolution, reached a critical condition. The nanocrack propagated by a cleavage mode because of the influence of the corrosion solution. Using a special constant deflection device, the in situ TEM observations of dislocation emission, motion and the initiation of nanocrack in 310 stainless steel in water were carried out. The results show that SCC in thin foil specimen of 310 stainless steel can occur in water. A nanocrack initiated in the DFZ or at the blunt crack tip in corrosion solution after dislocation emission, multiplication and motion, which were induced by the localized anodic dissolution, reached a critical condition. The nanocrack propagated by a cleavage mode because of the influence of the corrosion solution.

作者 Huang, YH Chen, QZ Chu, WY

机构地区 Univ Sci & Technol Beijing

出处《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 1997年第6期483-486,共4页 材料科学技术（英文版）

分类号 TG14 [一般工业技术—材料科学与工程]

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Journal of Materials Science & Technology

1997年第6期

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Dissolution-facilitating Dislocation Emission, Motion andInitiation of SCC in 310 Stainless Steel 被引量：2

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