Engineering
Laminate
100%
Crack Growth Rate
88%
Delamination Growth
82%
Numerical Study
75%
Rate Model
66%
Toughening
66%
Composite
66%
Block Level
64%
Fiber
63%
Bridging
55%
Transients
53%
Models
49%
Fatigue Loading
44%
Constant Amplitude
41%
Fibre-Reinforced Polymer Composite
38%
Low Load
38%
Cohesive Zone
37%
R-Curves
33%
Cohesive Law
33%
Benchmark
33%
Gas Fuel Manufacture
33%
Experimental Result
33%
Intralaminar Crack
33%
History Effect
33%
Thermal Stress
33%
Mixed Mode
33%
Loading History
33%
Damage Development
33%
Damage Model
33%
Crack Density
33%
Intralaminar Damage
33%
Step Change
33%
Bending Stiffness
33%
Bending Tests
33%
Automatic Calculation
33%
Load Block
31%
Constitutive Model
25%
Experiments
23%
Elements
22%
Crack Front
22%
High Cycle Fatigue
22%
Damage Evolution
22%
Tasks
22%
Loading Condition
22%
Deflection Curve
22%
Fatigue Life
22%
Fibre Reinforced Polymer
22%
Fatigue Damage
22%
Error
21%
Interaction Effect
20%
Material Science
Glass-Fiber Reinforced Plastic
100%
Fiber
78%
Crack
58%
Crack Growth
44%
Crack Propagation
41%
Composite Laminate
33%
Finite Element Modeling
33%
Crack Initiation
33%
Laminated Composite
25%
Glass
25%
Finite Element Methods
20%
Density
20%
Fatigue Crack Growth
19%
Mechanical Fracture
16%
Characterization
16%
Cohesive Zone Model
16%
Variable Amplitude Loads
9%
Fatigue Damage
8%
Polymer Composite
8%
Cyclic Loads
8%
Composite Material
6%
Fatigue of Materials
6%
Toughness
6%
Composite Structure
5%
