Engineering
Finite Element Method
100%
Plastic Deformation
100%
Cyclic Contact
100%
Accuracy
100%
Contact Condition
66%
Fatigue Damage
66%
Cyclic Loading
66%
Subsurface
66%
Rolling Contact Fatigue
66%
Computational Efficiency
66%
Contact Stress
33%
Models
33%
Limitations
33%
Load Cycle
33%
Ratcheting Strain
33%
Contact Patch
33%
Stress State
33%
Rolling Contact
33%
Loading Cycle
33%
Finite Element Modeling
33%
Rail Surface
33%
Contact Model
33%
Cycles
33%
Traction
33%
Hardened Steel
33%
Kinematic Hardening
33%
Material Science
Finite Element Method
100%
Plastic Deformation
100%
Rolling Contact Fatigue
66%
Wheel
66%
Fatigue Damage
66%
Contact Condition
66%
Materials
33%
Spring Steel
33%
Traction
33%
Rolling Contact
33%
Surface
33%
Finite Element Modeling
33%
INIS
ratcheting
100%
finite element method
100%
simulation
44%
rolling
44%
accuracy
33%
loading
33%
plasticity
33%
wheels
22%
efficiency
22%
damage
22%
fatigue
22%
modeling
22%
surfaces
11%
accumulation
11%
distribution
11%
steels
11%
geometry
11%
slip
11%
nonlinear problems
11%
hardening
11%
strains
11%
balances
11%
Keyphrases
Ratcheting Strain
25%
Ratcheting Rate
25%
Nonlinear Kinematic Hardening
25%
Finite Element Contact Models
25%