Keyphrases
High Cycle Fatigue
100%
Composite Laminates
100%
Local Stress Ratio
100%
Cycle Jump
66%
Transverse Matrix Cracking
66%
Fatigue Damage
66%
Fatigue Cohesive Zone Model
66%
Crack Propagation
33%
Numerical Framework
33%
Life-history Evolution
33%
S-N Curve
33%
Fatigue Parameters
33%
Adaptive Cycle
33%
Open-hole Laminate
33%
Thermal Stress
33%
Delamination
33%
Progressive Failure
33%
Arbitrary Location
33%
Simple Fracture
33%
Material Properties
33%
Quasi-isotropic
33%
High-cycle Fatigue Loading
33%
Crack Initiation
33%
Damage Evolution
33%
Testing Sample
33%
Mixed Mode Fatigue
33%
Fatigue Life
33%
Fracture Test
33%
Engineering
Composite
100%
High Cycle Fatigue
100%
Stress Ratio
100%
Local Stress
100%
Fatigue Damage
66%
Experiments
66%
Cycles
66%
Cohesive Zone Model
66%
Progressive Failure
33%
Thermal Residual Stress
33%
Fatigue Loading
33%
Matrix Crack
33%
Fatigue Life
33%
Mixed Mode
33%
S-N Curve
33%
Fracture Testing
33%
Crack Initiation
33%
Open Hole
33%
Delamination
33%
Damage Evolution
33%
Laminate
33%
Crack Propagation
33%
Matrix Cracking
33%
Crack
33%
Material Science
Composite Laminate
100%
High-Cycle Fatigue
100%
Extended Finite Element Method
66%
Crack
66%
Cohesive Zone Model
66%
Fatigue Damage
66%
Materials Property
33%
Delamination
33%
Matrix Cracking
33%
Fatigue of Materials
33%
Residual Stress
33%
Crack Propagation
33%
Composite Material
33%
Crack Initiation
33%
Damage Evolution
33%
INIS
accounting
100%
fatigue
100%
modeling
100%
zones
25%
matrices
25%
damage
25%
crack propagation
25%
cracks
25%
failures
12%
coverings
12%
cracking
12%
testing
12%
residual stresses
12%
curves
12%
simulation
12%
variations
12%
holes
12%
loading
12%
fractures
12%