Application of various low cycle fatigue evaluation rules to notched compact tension specimen test data

Keyphrases

• Low Cycle Fatigue 100%
• Compact Tension Specimen 100%
• Specimen Test 100%
• Evaluation Rule 100%
• Fatigue Evaluation 100%
• Cumulative Usage Factor 100%
• Evaluation Method 75%
• Elastic-plastic 75%
• Factor Value 75%
• Plastic Fatigue 75%
• Simplified Elastic-plastic Analysis 75%
• Japan 50%
• Conservatism 50%
• Boiler 50%
• Void Growth 50%
• Pressure Vessel Code 50%
• Fatigue Analysis 50%
• Code Case 50%
• American Society of Mechanical Engineers 50%
• Shrinkage Model 50%
• Fatigue Curve 50%
• Mechanical Engineer 50%
• Stainless Steel 25%
• Fracture Strain 25%
• CT Specimen 25%
• Elastic-plastic Finite Element Analysis 25%
• Low Alloy Steel 25%
• Material Input 25%
• Fatigue Fracture 25%
• Cyclic Hardening Model 25%

Engineering

• Mechanical Fatigue Test 100%
• Low Cycle Fatigue 100%
• Test Data 100%
• Mechanical Engineer 100%
• Elastic-Plastic Analysis 75%
• Japan 50%
• Void Growth 50%
• Pressure Vessel Codes 50%
• Steam Generator 50%
• Fatigue Analysis 50%
• Fatigue Curve 50%
• Stainless Steel 25%
• Fracture Strain 25%
• Input Data 25%
• Material Input 25%
• Hardening Model 25%
• Finite Element Analysis 25%
• High Strength Steels 25%

Physics

• Void Growth 100%
• Low-Cycle Fatigue 100%
• Finite Element Analysis 50%