Bond characteristics between conventional concrete and six high-performance patching materials

Engineering

• Concrete Structure 100%
• Conventional Concrete 100%
• Strength Concrete 100%
• Test Result 50%
• Tensiles 50%
• Building Application 50%
• Cement Concrete 50%
• Concrete Substrate 50%
• Conducted Experiment 50%
• Friction Coefficient 50%
• Shrinkage-Compensating Cement 50%
• Ultra-High-Performance Concrete 50%
• Glass Fibre-Reinforced Concrete 50%
• Adhesion Coefficient 50%
• Spalled Concrete 50%

Keyphrases

• High Performance 100%
• Patch Material 100%
• Conventional Concrete 100%
• Bonding Characteristics 100%
• Concrete Structures 25%
• Damaged Concrete 25%
• Polypropylene 12%
• Surface Roughness 12%
• Building Applications 12%
• Friction Coefficient 12%
• Concrete Substrate 12%
• Split Tensile Strength 12%
• Tensile Shear Test 12%
• Durability Characteristics 12%
• Glass Fiber Reinforced Concrete 12%
• Research Investigation 12%
• Strength Characteristics 12%
• Normal Strength Concrete 12%
• Shrinkage-compensating Cement Concrete 12%
• Adhesion Coefficient 12%
• Slant Shear Test 12%
• Alkali-resistant Glass Fiber 12%
• High Early Strength Concrete 12%
• Ultra-high Performance Concrete 12%
• Nonproprietary 12%
• Structural Capacity 12%

Material Science

• Mechanical Strength 100%
• Glass Fiber 33%
• Polypropylene 33%
• Surface Roughness 33%
• Shear Testing 33%
• Fiber Reinforced Concrete 33%
• High Performance Concrete 33%