INTRODUCTION
Part 1 Structure Design Basis for Wind Turbine Blade
Chapter 1 BASIC PRINCIPLES
1.1 DESIGN COORDINATION
1.2 DESIGN BASIS
1.3 STRUCTURE DESIGN
1.4 STRUCTURE WEIGHT AND COST CONTROL
Chapter 2 COMPOSITE BASIS
2.1 BLADE COMPOSITE STRUCTURE COMPONENTS
2.2 BLADE STRUCTURAL MATERIAL
2.3 REINFORCED FIBRE
2.4 RESIN
2.5 OTHER STRUCTURAL MATERIALS
2.6 MATERIAL SELECTION
2.7 MECHANICAL TEST OF COMPOSITES
2.7.1 Testing Techniques of Composites
2.7.2 Test Process of Composites
2.8 MANUFACTURABILITY OF COMPOSITES FOR BLADE
Chapter 3 STRUCTURE DESIGN BASIS
3.1 DESIGN BASIS
3.1.1 Airfoil Contour
3.1.2 Load Characteristics
3.1.3 Load-carrying Forms
3.2 CONFIGURATION DESIGN
3.3 STRUCTURE DESIGN PROCESS
Part 2 Structure Design for Wind Turbine Blade
Chapter 4 STRUCTURAL COMPONENT DESIGN
4.1 SPAR CAP DESIGN
4.1.1 Configuration Categories for Spar Cap
4.1.2 Spar Cap of Glass-fibre Fabric
4.1.3 Spar Cap of Carbon-fibre Fabric
4.1.4 Spar Cap of Laminated Bamboo-wood
4.1.5 Spar Caps Made of Mixed Material
4.1.6 Structure Design for Spar Caps
4.1.7 Spar Cap Manufacturing Process Description
4.2 DESIGN OF WEB AND FLANGE ADHESIVE BONDING
4.2.1 Web Configuration Types
4.2.2 Web Arrangements
4.2.3 Web Structure Design
4.2.4 Prospect of Web Processing
4.3 SKIN DESIGN
4.3.1 Configuration Design for Skin
4.3.2 Summary of Skin Process
4.4 SANDWICH STRUCTURE DESIGN
4.4.1 Sandwich Structure Configurations
4.4.2 Sandwich Structure Design
4.4.3 Summary of Sandwich Structure Processes
4.5 LEADING EDGE UD DESIGN AND LEADING EDGE ADHESIVE BONDING
4.5.1 Structure Design for Leading edge UD
4.5.2 Adhesive Bonding Forms
4.6 TRAILING EDGE UD DESIGN AND TRAILING EDGE ADHESIVE BONDING
4.6.1 Design for Trailing Edge UD Configuration
4.6.2 Structure Design for Trailing Edge
4.6.3 Summary of Trailing Edge Processing
4.7 ROOT REINFORCEMENT DESIGN
4.7.1 Structure Design for Root Reinforcement
4.7.2 Process Overview of Blade Root Reinforcing Layer
4.8 CONNECTION DESIGN OF BLADE ROOT
4.8.1 Different Method for Mounting Bolt
4.8.2 Configuration Design of Embedded Bolts
4.8.3 Structure Design for Embedded Bolts
4.8.4 Structure Design for T-bolt
4.8.5 Overview of Blade Root Process Test
4.9 DISCUSSION ABOUT OPTIMIZATION DESIGN
4.9.1 Influence of Optimization and Non-optimization
4.9.2 Structure Index
Chapter 5 DESIGN OF FUNCTIONAL PARTS
5.1 BLADE TIP DESIGN
5.2 LIGHTNING PROTECTION DESIGN
5.2.1 Air-termination System
5.2.2 Lightning Protection Tests on Blades
5.3 GEL COATS AND PAINTS
5.4 DESIGN OF REINFORCED LAYERS FOR TRANSPORTATION
5.5 BLADE ROOT COVER DESIGN
5.6 DESIGN OF BALANCING CHAMBERS
5.7 RAIN DEFLECTOR DESIGN
5.8 PE PIPES CONNECTED WITH DOUBLE WEBS
5.9 OTHER DESIGNS
Part 3 Structure Design Methods for Wind Turbine Blade
Chapter 6 STRUCTURE VERIFICATION PRINCIPLES
6.1 GENERAL PRINCIPLES OF STRUCTURE VERIFICATION
6.2 BLADE STRUCTURE VERIFICATION METHODS
6.3 GENERAL INTRODUCTION OF BLADE STRUCTURE VERIFICATION
6.3.1 Blade Topological Graph
6.3.2 Stress Characteristics of Blade Components
6.4 STRENGTH ANALYSIS
6.5 STABILITY ANALYSIS
6.6 DEFORMATION ANALYSIS
6.7 DYNAMIC CHARACTERISTIC ANALYSIS
6.8 ADHESIVE BONDING ANALYSIS
6.9 INTERLAMINAR ANALYSIS
6.10 FATIGUE ANALYSIS
6.11 ADVANCED ANALYSIS
Chapter 7 UNIDIMENSIONAL METHOD
7.1 I-BEAM THEORY
7.2 SIMPLIFICATION OF BLADE CROSS SECTION MODEL
7.3 CALCULATION OF BLADE CROSS SECTION STRENGTH
7.4 ST

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