铝合金-CFRP液氮温度下弯曲强度的强化研究

Engineering

• Strength Enhancement 100%
• Carbon Fibre Reinforced Polymer 100%
• Temperature 100%
• Al Substrate 50%
• Room Temperature 33%
• Aluminum Substrate 33%
• Bonding Strength 33%
• Coating Technique 33%
• Surfaces 33%
• Joints (Structural Components) 33%
• Defects 33%
• Carbon Nanotubes 33%
• Cryogenic Temperature 16%
• Directional 16%
• Bridging 16%
• Failure Mode 16%
• Point Bending 16%
• Industrial Applications 16%
• Fracture Failure 16%
• Substrate Surface 16%
• Acetone 16%
• Adhesive Failure 16%
• Applications 16%
• Performance 16%
• Fiber 16%
• Fuel 16%
• Additives 16%
• Main Structure 16%

Material Science

• Carbon Fiber 100%
• Flexural Strength 100%
• Liquid 100%
• Temperature 100%
• Aluminum 100%
• Epoxy 50%
• Resin 33%
• Adhesive Bonding 33%
• Surface 33%
• Defect 33%
• Mechanical Strength 33%
• Coating 33%
• Anodizing 33%
• Surface Treatment 16%
• Liquid Fuels 16%
• Fiber 16%
• Additive 16%
• Bending 16%

Physics

• Liquid Nitrogen 100%
• Flexural Strength 100%
• Temperature 100%
• Substrates 83%
• Room Temperature 33%
• Defects 33%
• Adhesive Bonding 33%
• Utilization 33%
• Joint 33%
• Failure 33%
• Coating 33%
• Cryogenic Temperature 16%
• Failure Modes 16%
• Crack Bridging 16%
• Liquid Fuels 16%
• Performance 16%
• Rangefinding 16%
• Bending 16%
• Cryogenics 16%
• Fracture 16%