Simulation of Fatigue in High-Temperature Superconductor using Findley criterion

Engineering

• High Temperature 100%
• Superconductor 100%
• Simulation 100%
• Cycles 80%
• Tape 60%
• Stress Ratio 60%
• Mechanical Fatigue Test 60%
• Crack 60%
• Fatigue Strength 60%
• Fatigue Limit 40%
• Performance 40%
• Cyclic Loading 40%
• Maximum Stress 20%
• Fatigue Cycle 20%
• Models 20%
• Experiments 20%
• Structural Damage 20%
• Constant Amplitude 20%
• Superconducting Cable 20%
• Thermal Cycle 20%
• Supports 20%
• Measurer 20%
• Applied Force 20%
• Increasing Stress 20%
• Fatigue Life 20%
• Endurance Limit 20%
• Small Amount 20%
• Fatigue Loading 20%
• Determines 20%
• Cryogenic Temperature 20%
• Loading Cycle 20%
• Power Engineering 20%
• Fatigue Effect 20%

Physics

• High Temperature Superconductors 100%
• Cycles 100%
• Simulation 100%
• High Temperature 57%
• Cracks 42%
• Fatigue Test 42%
• Ratios 42%
• Growth 28%
• Performance 28%
• Variations 28%
• Value 14%
• Fatigue Life 14%
• Amplitudes 14%
• Foci 14%
• Superconducting Magnet 14%
• Cryogenic Temperature 14%
• Increasing 14%
• Superconducting Devices 14%
• Model 14%
• Electromagnetism 14%
• Critical Current 14%

Material Science

• Temperature 100%
• High Temperature Superconductors 100%
• Crack 60%
• Mechanical Strength 60%
• Superconducting Tape 40%
• Crack Growth 40%
• Superconducting Material 40%
• Material 20%
• Finite Element Methods 20%
• Superconducting Magnet 20%
• Devices 20%
• Mechanical Failure 20%
• Superconducting Cable 20%
• Cable 20%
• Durability 20%
• Fatigue of Materials 20%
• Fatigue Crack 20%