Paper
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.A thickness-sensitive and orientation-related creep lifetime prediction method of nickel-based single crystal superalloy.[J]:Fatigue & Fracture of Engineering Materials & Structures,2023,46:13954
.Low cycle fatigue lifetime and deformation behaviour prediction of nickel-based single crystal superalloy considering thickness debit effect.[J]:Engineering Fracture Mechanics,2023,281:109076
.Stress-controlled LCF experiments and ratcheting behaviour simulation of a nickel-based single crystal superalloy with [001] orientation.[J]:Chinese Journal of Aeronautics,2021,34:112-121
.Damage-based low cycle fatigue lifetime prediction of nickel-based single crystal superalloy considering anisotropy and dwell types.[J]:Fatigue & Fracture of Engineering Materials & Structures,2020,43:2956-2965
.Constitutive modelling of ratcheting behaviour for nickel-based single crystal superalloy under thermomechanical fatigue loading considering microstructure evolution.[J]:International Journal of Fatigue,2020,139:105786
.In-phase thermomechanical fatigue lifetime prediction of nickel-based single crystal superalloys from smooth specimens to notched specimens based on coupling damage on critical plane.[J]:International Journal of Fatigue,2019,126:327-334
.Thermomechanical fatigue experiment and failure analysis on a nickel-based superalloy turbine blade.[J]:Engineering Failure Analysis,2019,102:35-45
.A critical-plane-based thermomechanical fatigue lifetime prediction model and its application in nickel-based single crystal turbine blades.[J]:Materials at High Temperatures,2019,36:325-334
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