Engineering
Delamination
100%
Wind Turbine
39%
Crack Growth Rate
33%
Finite Element Method
31%
Delamination Growth
25%
Delamination Front
25%
Crack Front
24%
Cohesive Element
22%
Composite Structure
20%
Cohesive Zone
19%
Fatigue Loading
19%
Binders
18%
Damage Model
18%
Simulation Method
18%
Energy Release Rate
17%
Finite Element Modeling
16%
Laminated Composite Structure
16%
Experimental Result
15%
Defects
15%
Intralaminar Damage
15%
Crack Density
15%
Constant Amplitude
14%
Numerical Study
13%
Block Level
13%
Cohesive Zone Model
13%
Process Zone
12%
Fatigue Damage
12%
Non-Crimp Fabric
12%
Mixed Mode
12%
Bridging
12%
Intralaminar Crack
12%
Rate Model
12%
Toughening
12%
Proper Orthogonal Decomposition
12%
Crack Propagation
11%
Composite Material
11%
Cyclic Loading
11%
High Cycle Fatigue
10%
Crack Growth
10%
Transients
9%
Damage Tolerance
9%
Blade Root
9%
Fibre Reinforced Polymer
9%
Manufacturing Process
8%
Test Specimen
8%
R-Curves
8%
J-Integral
8%
Fiber-Reinforced Composite
8%
Benchmark Case
8%
Fibre-Reinforced Polymer Composite
8%
Material Science
Delamination
69%
Glass-Fiber Reinforced Plastic
30%
Laminated Composite
23%
Crack Growth
22%
Density
18%
Finite Element Methods
17%
Crack Propagation
9%
Composite Material
9%
Cohesive Zone Model
9%
Fatigue Damage
7%
Fiber Reinforced Material
7%
Crack Initiation
7%
Glass Fiber
6%
Reinforced Plastic
6%
Mechanical Strength
6%
Composite Laminate
6%
High-Cycle Fatigue
6%
Scarf Joint
6%
Finite Element Modeling
6%
Fiber-Reinforced Composite
6%
Fatigue of Materials
5%
Keyphrases
Multiple Delaminations
12%
Floating Nodes
12%
High-cycle Fatigue Loading
8%
Tensile Loading
6%
Damage Tolerance
6%
Tolerance Optimization
6%
Crack Tip
6%
Cohesive Zone Law
6%
Manufacturing Process Parameters
6%
Interface Finite Element
6%
Cantilever Bending Test
6%
ANSYS Mechanical
6%
Layup Design
6%
Scarf Joint
6%
Trimaterial
6%
Laminated Composite Materials
6%
Glass Fiber Laminated Composites
6%
Turbine Blade Root
6%
Fast Prediction
6%
Continuum Damage Model
6%
Wrinkle Feature
6%
Analysis Code
6%
Research Code
6%
Stiffness Design
6%
Cohesive Law
6%
Intralaminar Cracks
6%
Inverse Parameter Identification
6%
Parametric Finite Element Modeling
6%
Node-based Approach
6%
Nonlinear Buckling
6%
Delamination Toughening
6%
Delamination Model
6%
Fatigue Delamination
6%
Local Criterion
6%
Buckling Load
6%
Cross-ply Laminates
6%
Glass Fiber Reinforced Polymer Composites
6%
Static Failure
6%
Block Loads
5%
Refined Finite Element Model
5%
Floating Node Method
5%