期刊
FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES
卷 44, 期 3, 页码 805-821出版社
WILEY
DOI: 10.1111/ffe.13395
关键词
biaxial loading; crack path; friction stir welding; mixed-mode fatigue crack propagation; residual stress
资金
- National Natural Science Foundation of China [91860128, 11572250]
- 2018 Innovation Ability Supporting Program of ShaanXi Province [2018KW-028]
Residual stress has a considerable effect on mixed-mode crack propagation behavior under biaxial loading conditions, especially influencing crack deviation in the early stage of propagation. The variation of crack path is strongly linked with residual stress and biaxial loading ratio.
The effect of residual stress on mixed-mode crack propagation behaviour in friction stir welded (FSW) 7075-T6 panel under biaxial loading was investigated. Stress intensity factors (K-I and K-II) were used to study the effects of residual stress on crack behaviours with five different biaxial loading ratios. It was observed that residual stress has a considerable effect on the mixed-mode crack growth. In most cases, the crack deviation from the initial crack is mainly affected by residual stress at the beginning of crack propagation. The variation of crack path is strongly linked with the residual stress as well as the biaxial loading ratio. In addition, K-I and K-II are susceptible to residual stress under biaxial loading conditions. Residual stresses contribute to a higher proportion of K-II compared with that of K-I. K-I and K-II in the retreating side are more affected by the residual stress.
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