Keyphrases
Energy Absorption Capacity
100%
Compressive Behavior
100%
Elevated Temperature
100%
Fibre Reinforced High Performance Concrete
100%
Compressive Strength
71%
Concrete Mix
42%
Metakaolin
42%
Silica Fume
28%
Steel Fiber
28%
Toughness
28%
Polypropylene Fiber
28%
Stiffness
14%
Stress-strain Relationship
14%
Elastic Modulus
14%
Cementitious Materials
14%
Reinforced
14%
Beneficial Effects
14%
Cement Replacement
14%
Ordinary Portland Cement
14%
Elastic Energy
14%
High Performance Concrete
14%
Steel Fiber Reinforced Concrete
14%
Energy Loss
14%
High Temperature Exposure
14%
Material Constitution
14%
High Compressive Strength
14%
Stiffness Loss
14%
High Energy Absorption
14%
Engineering
Energy Absorption Capacity
100%
Compressive Behavior
100%
Elevated Temperature
100%
High-Performance Concrete
100%
Compression Strength
85%
Compressive Strength
85%
Metakaolin
42%
Steel Fiber
42%
Concrete Mixture
28%
Silica Fume
28%
Beneficial Effect
14%
Strain Relationship
14%
Concrete Mix
14%
Ordinary Portland Cement
14%
Elastic Energy
14%
Fiber-Reinforced Concrete
14%
Modulus of Elasticity
14%
Material Science
Compressive Strength
100%
High Performance Concrete
100%
Steel Fiber
50%
Polypropylene
33%
Concrete Mixture
33%
Silica Fume
33%
Elastic Moduli
16%
Portland Cement
16%
Fiber Reinforced Concrete
16%
Cementitious Material
16%