Engineering
Fatigue Performance
100%
Low Cycle Fatigue
100%
Iron
100%
Isotropic Hardening
66%
Monotonic Loading
66%
Fatigue Life
66%
Durables
33%
Structural System
33%
Fatigue Failure
33%
Cyclic Strain
33%
Structural Steel
33%
Strain Amplitude
33%
Shape Memory Alloy
33%
Rotational
33%
Mild Steel
33%
Active Region
33%
Test Material
33%
Fracture Strain
33%
Hardening Model
33%
Kinematic Hardening
33%
Hardening Parameter
33%
Numerical Modeling
33%
Failure Mode
33%
Cyclic Loading
33%
Keyphrases
Low Cycle Fatigue
100%
Iron-based
100%
Fe-based Shape Memory Alloy (Fe-SMA)
100%
Damping Application
100%
Seismic Damping
100%
Isotropic Hardening
22%
Fatigue Life
22%
Damper
22%
Monotonic Loading
22%
Structural Steel
11%
Cyclic Loading
11%
Hysteretic Behavior
11%
Numerical Modeling
11%
Structural System
11%
Macroscopic Properties
11%
Fatigue Performance
11%
Crack Pattern
11%
Fracture Strain
11%
Hardening Characteristics
11%
Mild Steel
11%
Resilient
11%
Cyclic Strain
11%
Parameter Calibration
11%
Catering
11%
Phase Transformation Characteristics
11%
Good Ductility
11%
Strain Amplitude
11%
Hardening Model
11%
SMA Damper
11%
Microscopic Properties
11%
Material Tests
11%
Rotational Angle
11%
Combined Kinematics
11%
Fatigue-free
11%
Kinematic Hardening
11%
Fatigue Failure Mode
11%
Seismic Active Regions
11%
Hardening Parameter
11%
Shear Damper
11%
Strain-life
11%
Basquin
11%
Coffin-Manson
11%
Combined Hardening
11%
Iron-based Shape Memory Alloy
11%
Material Science
Fatigue of Materials
100%
Low-Cycle Fatigue
100%
Shape Memory Effect
50%
Carbon Steel
50%