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Research on fatigue behavior of electron beam welding joint of 06Cr19Ni10 austenitic stainless steel sheet
Highlights The slope of S–N curve of electron beam welding joint was revised. Tensile properties and microstructure of beam welding joints were studied. Fatigue failure mechanism of electron beam welding joint was studied.
Abstract 06Cr19Ni10 austenitic stainless steel sheet square butt joints without filler metal addition were fabricated using EBW (electron beam welding) processes. Fatigue properties, tensile properties and microstructure of the welded joints were studied. It was found that the yield strength, tensile strength, elongation and Vickers hardness of EBW joint can reach the level of base material performance. Fusion zones consist of coarse columnar dendritic grains, which are perpendicular to the weld pool boundary. The hardness of heat affected zone is lower than weld centreline. The reason is that the grain of heat affected zone under the action of electron beam heat source happened recovery and recrystallization. The present work suggests that S–N curve slope ofwelding joint should be revised to m=10 under the condition of high stress levels, and S–N curve slope is still m=3.0 under the condition of low stress levels. Fatigue cracks did not extend along the minimum thickness of the section. On the contrary, fatigue cracks extended along the maximum height of the section.
Research on fatigue behavior of electron beam welding joint of 06Cr19Ni10 austenitic stainless steel sheet
Highlights The slope of S–N curve of electron beam welding joint was revised. Tensile properties and microstructure of beam welding joints were studied. Fatigue failure mechanism of electron beam welding joint was studied.
Abstract 06Cr19Ni10 austenitic stainless steel sheet square butt joints without filler metal addition were fabricated using EBW (electron beam welding) processes. Fatigue properties, tensile properties and microstructure of the welded joints were studied. It was found that the yield strength, tensile strength, elongation and Vickers hardness of EBW joint can reach the level of base material performance. Fusion zones consist of coarse columnar dendritic grains, which are perpendicular to the weld pool boundary. The hardness of heat affected zone is lower than weld centreline. The reason is that the grain of heat affected zone under the action of electron beam heat source happened recovery and recrystallization. The present work suggests that S–N curve slope ofwelding joint should be revised to m=10 under the condition of high stress levels, and S–N curve slope is still m=3.0 under the condition of low stress levels. Fatigue cracks did not extend along the minimum thickness of the section. On the contrary, fatigue cracks extended along the maximum height of the section.
Research on fatigue behavior of electron beam welding joint of 06Cr19Ni10 austenitic stainless steel sheet
Zhao, Xiaohui (author) / Liu, Yu (author)
2014-01-03
9 pages
Article (Journal)
Electronic Resource
English
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