1. Effect of pre-strain on microstructure and hydrogen embrittlement of K-TIG welded austenitic stainless steel.
- Author
-
Li, Xiaogang, Gong, Baoming, Deng, Caiyan, and Li, Yizhe
- Subjects
- *
EMBRITTLEMENT , *METAL microstructure , *AUSTENITIC stainless steel , *MARTENSITIC transformations , *FRACTURE mechanics - Abstract
Highlights • Failure location in hydrogen embrittled stainless steel joint depends on pre-strain. • Severe strain-induced α′ martensite in the base metal contributes to failure mechanism transition. • Tendency of strain-induced α′ martensitic transformation for the weld metal and base metal is strongly determined by local chemical homogeneity. Abstract The effects of pre-strain on hydrogen embrittlement of 304L K-TIG welded joint were investigated. As pre-strain of joint increased, fracture location of hydrogen-charged joint changed from weld metal to base metal. In low prestrained joints, fracture may be initiated at the sites of clustered dislocations due to hydrogen in weld metal with a high density of pre-existing dislocations. In high prestrained joints, some regions in base metal suffered severe strain-induced α′ martensitic transformation due to Ni depletion bands and cracking occurred at phase boundaries where may provide more sites for the accumulation of hydrogen atoms and dislocations. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF