Engineering
Joints (Structural Components)
100%
Composite
100%
Digital Image Correlation
100%
Finite Element Method
100%
Debonding
100%
Experiments
100%
Crack Propagation
100%
Steel
42%
Development
28%
Crack
28%
Hollow Section
14%
Failure Mode
14%
Fatigue Performance
14%
Mechanisms
14%
Joining Technology
14%
Fatigue Life
14%
Laminate Thickness
14%
Finite Element Modeling
14%
Cyclic Loading
14%
Surface
14%
Welding
14%
Prediction
14%
Application Method
14%
Tensile Loads
14%
Mechanical Fatigue Test
14%
Digital Image Correlation Technique
14%
Strain-Energy Release Rate
14%
Early Stage
14%
INIS
crack propagation
100%
correlations
100%
images
100%
fatigue
100%
steels
75%
interfaces
50%
strains
50%
cracks
50%
prediction
25%
failures
25%
surfaces
25%
bonding
25%
finite element method
25%
energy
25%
applications
25%
distribution
25%
thickness
25%
joining
25%
variations
25%
interactions
25%
monitoring
25%
performance
25%
loading
25%
length
25%
welding
25%
Material Science
Finite Element Method
100%
Crack Propagation
100%
Composite Material
100%
Debonding
100%
Spring Steel
42%
Crack
28%
Tensile Loads
14%
Fatigue of Materials
14%
Welding
14%
Surface
14%
Finite Element Modeling
14%
Keyphrases
FEA Method
100%
Distributions on Surfaces
20%
Non-uniform Thickness
20%