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- Title
Damage‐based low‐cycle fatigue lifetime prediction of nickel‐based single‐crystal superalloy considering anisotropy and dwell types.
- Authors
Zhang, Bin; Wang, Rongqiao; Hu, Dianyin; Jiang, Kanghe; Hao, Xinyi; Mao, Jianxing; Jing, Fulei
- Abstract
Based on the physical phenomenon that the fatigue cracks initiate along specific slip plane, a slip plane damage‐based low‐cycle fatigue (LCF) lifetime model for the nickel‐based single‐crystal superalloy is established. The predicted results indicate that the lifetime model can reflect the orientation effect. In addition, in order to characterize the dwell‐time dependence of the LCF lifetime, creep damage and compression‐creep damage are introduced to the lifetime model. Finally, the lifetime predictions under LCF loading with tensile dwell time, compressive dwell time and tensile‐compressive dwell time are conducted by employing the lifetime model, respectively. The predicted lifetimes show a good agreement with the experimental data, which verifies the accuracy of the developed lifetime model in this paper.
- Subjects
FORECASTING; HEAT resistant alloys; FATIGUE cracks; PHENOMENOLOGICAL theory (Physics)
- Publication
Fatigue & Fracture of Engineering Materials & Structures, 2020, Vol 43, Issue 12, p2956
- ISSN
8756-758X
- Publication type
Article
- DOI
10.1111/ffe.13345