Engineering
Fatigue Resistance
100%
Low Cycle Fatigue
100%
Test Material
100%
Test Result
50%
Fatigue Performance
50%
Monotonic Loading
50%
Cyclic Loading
50%
Fatigue Failure
25%
Isotropic Hardening
25%
Energy Dissipation
25%
Critical Location
25%
Loading Scheme
25%
Loading Direction
25%
Hardening Model
25%
Fatigue Life
25%
Strain Rate
25%
Carbon Steel
25%
Finite Element Modeling
25%
Numerical Model
25%
Strain Hardening
25%
Keyphrases
Fatigue Resistance
100%
Low Cycle Fatigue
100%
U-shaped Damper
100%
Fe-Mn Alloy
100%
Material Tests
44%
Cyclic Loading
22%
Monotonic Loading
22%
Numerical Model
11%
Material Properties
11%
Strain Rate
11%
Energy Dissipation
11%
Stress Distribution
11%
Hysteretic Behavior
11%
Finite Element Model
11%
Isotropic Hardening
11%
Damper
11%
Strain Hardening
11%
Fatigue Failure
11%
Material Type
11%
Total Energy
11%
Carbon Steel
11%
Loading Scheme
11%
Steel Sample
11%
Parameter Calibration
11%
Loading Direction
11%
Hysteresis Behavior
11%
Hardening Model
11%
Combined Kinematics
11%
Hysteresis Response
11%
Narrow Hysteresis
11%
Yield Plateau
11%
Steel Damper
11%
Low-cycle Fatigue Life
11%
Non-Masing Behavior
11%
Behaviour Distribution
11%
Material Science
Fatigue of Materials
100%
Silicon Alloys
100%
Low-Cycle Fatigue
100%
Work Hardening
11%
Strain Rate
11%
Materials Property
11%
Materials Class
11%
Finite Element Modeling
11%
Carbon Steel
11%