Engineering
Wind Turbine
98%
Impact Fatigue
44%
Test Method
37%
Damage Mechanism
31%
Fatigue Damage
31%
Fibre Reinforced Polymer
26%
Finite Element Modeling
22%
Porosity
22%
Composite Damage
22%
Drapability
22%
Binders
22%
Non-Crimp Fabric
22%
Experimental Observation
22%
Composite Material
22%
Material Performance
22%
Structural Effect
22%
Experimental Model
22%
Experimental Characterization
22%
Testing Method
22%
Stress Concentration
22%
Specimen Geometry
22%
Test Condition
22%
Experimental Uncertainty
22%
Feedback Information
22%
Compressive Strength
22%
Shear Angle
17%
Structural Repair
13%
Wind Power
13%
Gauge Area
11%
Necking Region
11%
Finite Element Method
8%
Subsurface
8%
Transients
8%
Gelcoat
8%
Acoustic Emission
8%
Ultrasonics
8%
High Resolution
8%
Aspect Ratio
8%
Curing Temperature
7%
Progression
7%
Test Result
7%
Leading Edge
7%
Fatigue Property
7%
Operation and Maintenance
7%
Void Growth
7%
Trailing Edge
7%
Test Setup
7%
Repair Technology
5%
Mechanical Fatigue Test
5%
Fatigue Lifetime
5%
Keyphrases
Impact Fatigue
44%
Fatigue Tester
26%
Wind Turbine Blade
26%
Thermal Recycling
22%
Single Point
22%
Thermoset Polymer Composite
22%
Composite Recycling
22%
Recycling Property
22%
Composite Damage
22%
Fatigue Performance
22%
Turbine Blade Repair
22%
Glass Fiber Composite
22%
Model Feedback
22%
Hand Lay-up
22%
Fiber Volume Fraction
22%
Porosity
22%
Recycled Glass Fiber
14%
Repaired Structure
14%
Curing Technology
14%
High Temperature
14%
Near-critical Water
11%
Supercritical Acetone
11%
Compressive Performance
11%
Representative Method
11%
Tension-tension
11%
Technological Contribution
11%
Load Case
11%
Fatigue Damage
8%
3D X-ray Computed Tomography
8%
Packing Behaviour
7%
Fatigue Test
7%
Static Test
7%
Scarf
7%
High Strength
7%
Repair Technology
7%
Maximum Stress
7%
Stiffness
7%
Low Porosity
7%
Damaged Blade
7%
Wind Turbine
7%
Post-repair
7%
X-ray Study
7%
Ultraviolet Curing
7%
Structural Repair
7%
Composite Plate
7%
Fatigue Life
7%
Vacuum Delivery
7%
Residual Stress
7%
Cost of Wind Energy
7%
Vacuum Infusion
7%
Material Science
Glass Fiber
100%
Fatigue Damage
44%
Reinforced Plastic
38%
X-Ray Computed Tomography
33%
Volume Fraction
31%
Composite Material
22%
Supercritical Fluid
22%
Thermoset Composite
22%
Glass-Fiber Reinforced Plastic
22%
Carbon Fiber
22%
Tomography
22%
Finite Element Methods
22%
Mechanical Strength
22%
Ultimate Tensile Strength
16%
Composite Laminate
13%
Aircraft
11%
Residual Stress
7%
Vacuum Infusion
7%
Laminated Plate
7%