100 Ping Le Yuan
Chaoyang District
Beijing, 100020
China
Beijing University of Technology
Very high cycle fatigue, multiaxial fatigue, Failure mechanism, Titanium alloy, Life prediction
Combined multiaxial low and very high cycle fatigue, Multiaxial thermomechanical fatigue, Life prediction, Damage mechanism, Titanium alloy
Composite laminates, Fatigue life prediction, Elevated temperature, Different ply structures
Needled C/SiC composite, Random vibration, Natural frequency, Fatigue life prediction, Nonlinear response
online multiaxial cycle counting, variable amplitude loading, Multiaxial fatigue, damage assessment
Thermo-mechanical Fatigue Loading, Multiaxial Fatigue Loading, Phase Angle, High Temperature, Dislocation, Titanium Alloy
Unidirectional needled C/SiC composites, Contribution ratio, Fatigue Life Prediction, Stress contribution ratio