Adhesive Joints in Wind Turbine Blades

Engineering

• Adhesive Joints 100%
• Wind Turbine 100%
• Test Specimen 75%
• Transverse Crack 50%
• Tunnel Construction 50%
• Residual Stress 37%
• Cohesive Strength 37%
• Full Scale 25%
• Material System 25%
• Model Prediction 25%
• Laminate Thickness 25%
• Curing Temperature 25%
• Test Temperature 25%
• Single Edge 25%
• Defects 25%
• Buffer Layer 25%
• Design Rule 12%
• Negative Effect 12%
• Test Series 12%
• Full-Scale Test 12%
• Adhesive Layer 12%
• Joint Design 12%
• Energy Release Rate 12%
• Linear Elastic Fracture Mechanic 12%
• Mechanical Loading 12%
• Beam Specimen 12%
• Strain Gage 12%
• Mechanical Fatigue Test 12%
• Crack Length 12%
• Bond Line 12%
• Material Interface 12%
• Cracking Mechanism 12%
• Crack Growth Rate 12%
• Initiated Crack 12%
• Main Crack 12%
• Finite Element Modeling 12%
• Fiber Bragg Grating 12%
• Stable Crack Growth 12%
• Mechanical Stress 12%
• Design Method 12%
• Numerical Model 12%
• Cyclic Loading 12%
• Analytical Model 12%
• Tensile Test 12%

Material Science

• Mechanical Strength 100%
• Residual Stress 75%
• Buffer Layer 50%
• Fiber Bragg Grating 25%
• Fracture Mechanics 25%
• Stress Analysis 25%
• Interface (Material) 25%
• Finite Element Modeling 25%
• Crack Growth 25%
• Mechanical Stress 25%
• Stable Crack Growth 25%
• Linear Elastic Fracture 25%

Keyphrases

• Post-curing Temperature 25%
• Quasi-static Tensile Test 12%