Modeling the Hydrogen Effect on the Constitutive Response of a Low Carbon Steel in Cyclic Loading

Keyphrases

• Hydrogen Effect 100%
• Constitutive Response 100%
• Cyclic Loading 100%
• Low Carbon Steel 100%
• Ratcheting 66%
• Stress Control 66%
• Constitutive Model 66%
• Cyclic Hardening 66%
• Predictive Models 33%
• Room Temperature 33%
• Strain Field 33%
• Yield Stress 33%
• Biaxial Strain 33%
• Hydrogen Embrittlement 33%
• Stress Field 33%
• Mechanistic Model 33%
• Macroscopic Parameters 33%
• Fatigue Crack Growth 33%
• Accelerated Fatigue Test 33%
• Cyclic Stress Ratio 33%
• Strain Control 33%
• Cyclic Response 33%
• Material Interaction 33%
• Cyclic Straining 33%
• Constitutive Description 33%
• Cyclic Ratcheting 33%
• Severe Manifestations 33%
• H2 Gas Environment 33%
• Chaboche Constitutive Model 33%
• Chaboche Model 33%
• Armstrong Model 33%
• Nonlinear Kinematic Hardening Model 33%
• Japanese Industrial Standards 33%

Engineering

• Constitutive Model 100%
• Cyclic Loading 100%
• Mild Steel 100%
• Room Temperature 33%
• Strain Field 33%
• Macroscale 33%
• Fatigue Crack Growth 33%
• Cyclic Stress 33%
• Material Interaction 33%
• Gas Environment 33%
• Kinematic Hardening Model 33%
• Axial Strain 33%
• Yield Point 33%
• Hydrogen Embrittlement 33%

Material Science

• Low Carbon Steel 100%
• Yield Stress 50%
• Hydrogen Embrittlement 50%
• Fatigue Crack Growth 50%