School of Materials Science and Engineering;
Tongji University;
Shanghai 201804;
China;
Department of Mechanical and Industrial Engineering;
Ryerson University;
Toronto;
Ontario M5B 2K3;
Canada;
Shanghai Key Laboratory of D&A for Metal-Functional Materials;
School of Materials Science&Engineering;
Tongji University;
Shanghai 201804;
China;
College of Mechatronics and Control Engineering;
Shenzhen University;
Shenzhen 518060;
China;
Ti2AlNb-based alloy; Cyclic deformation; Low cycle fatigue; Fatigue life prediction; Fracture;