Dynamic recrystallization based ductile fracture modeling in hot working of metallic materials

Keyphrases

• Ductile Fracture 100%
• Metallic Materials 100%
• Dynamic Recrystallization 100%
• Hot Working 100%
• Ductile Fracture Model 100%
• Void Growth 50%
• Ductility 33%
• Hot Working Process 33%
• Void nucleation 33%
• Void Coalescence 33%
• Tensile Test 16%
• Softening Effect 16%
• Fracture Behavior 16%
• Simulation Method 16%
• Elevated Temperature 16%
• Temperature Effect 16%
• Damage Model 16%
• Workability 16%
• Flow Stress 16%
• Validation Experiment 16%
• Strain Rate Sensitivity 16%
• Finite Element Simulation 16%
• Microscopic Observation 16%
• Nucleation Rate 16%
• Fracture Phenomena 16%
• Hybrid Simulation 16%
• Void Size 16%
• Hot Deformation 16%
• Size Ratio 16%
• Thomason Model 16%
• 316L Steel 16%
• Experiment Method 16%
• Hybrid Experiments 16%
• Local Stress Concentration 16%
• Microscopic Modeling 16%
• Hot Tensile 16%

Engineering

• Hot Working 100%
• Dynamic Recrystallization 100%
• Ductile Fracture 100%
• Experimental Result 25%
• Driving Force 12%
• Simulation Method 12%
• Finite Element Simulation 12%
• Fracture Behavior 12%
• Tensiles 12%
• Elevated Temperature 12%
• Local Stress 12%
• Damage Model 12%
• Flow Stress 12%
• Strain Rate Sensitivity 12%
• Nucleation Rate 12%
• Temperature Dependency 12%
• Stress Concentration 12%
• Void Growth 12%
• Hybrid Experiment 12%

Material Science

• Hot Working 100%
• Ductile Fracture 100%
• Nucleation 37%
• Stress Concentration 12%
• Strain Rate 12%
• Fracture Behavior 12%
• Void Growth 12%
• Finite Element Methods 12%