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%