Modelling of hardening due to grain growth for a superplastic alloy

Engineering

• Constitutive Equation 100%
• Isotropic Hardening 100%
• Isothermal 50%
• Strain Rate 50%
• Ti-6al-4v 50%
• Optimisation Procedure 50%
• Numerical Optimization 50%
• Plastic Strain 50%
• Rate Equation 50%
• Strain Hardening Rate 50%
• Material Constant 50%
• Strain Relationship 50%
• Experimental Stress 50%

Keyphrases

• Grain Growth 100%
• Superplastic Alloy 100%
• Isotropic Hardening 50%
• Strain Rate 25%
• Microstructure 25%
• Titanium Alloy 25%
• Ti-6Al-4V (Ti64) 25%
• Constitutive Equation 25%
• Plastic Strain 25%
• Rate Equations 25%
• Grain Growth Rate 25%
• Analytical Optimization 25%
• Accurate Modeling 25%
• Superplastic 25%
• Initial Grain Size 25%
• Viscoplastic Constitutive Equations 25%
• Strain Hardening 25%
• Stress-strain Relationship 25%
• Experimental Stress 25%
• Strain-induced 25%
• Material Constants 25%
• Numerical Optimization Methods 25%

Material Science

• Strain Rate 100%
• Grain Size 50%
• Titanium Alloy 50%
• Ti-6Al-4V 50%