Keyphrases
Mechanical Properties
100%
Alkali-activated Slag
100%
Waste Steel Fibers
100%
Slurry Infiltrated Fiber Concrete
100%
Sustainable Construction
100%
Recycled Glass
100%
Recycled Tires
100%
Sodium Hydroxide
80%
Alkali Activation
80%
Waste Materials
60%
Flexural Strength
60%
Compressive Strength
40%
Sodium Silicate
40%
Steel Fiber
40%
Ground Waste Glass
40%
SIFCON
40%
Commercially Available
20%
Fiber Content
20%
Silicate
20%
Three-point Bending Test
20%
Fracture Toughness
20%
Environmental Sustainability
20%
Approach Bridge
20%
Na2SiO3
20%
Molar Concentration
20%
Normal Strength Concrete
20%
Fracture Energy
20%
Ordinary Portland Cement
20%
Mix Design
20%
Waste Fiber
20%
Ground Granulated Blast Furnace Slag (GGBFS)
20%
High Performance Concrete
20%
Scrap Tires
20%
Waste Glass
20%
Use of Waste
20%
Chemical Activators
20%
Sodium Silicate Solution
20%
Sustainable Composites
20%
Product Material
20%
Splitting Strength
20%
Activator Solution
20%
Flexural Toughness
20%
Innovative Approach
20%
Discarded Tires
20%
Engineering
Steel Fiber
100%
Activated Slag
100%
Sustainable Construction
100%
Sodium Silicate
60%
Bending Strength
60%
Activator
40%
Finely Ground
40%
Compression Strength
40%
Compressive Strength
40%
Test Result
20%
Three-Point Bending Test
20%
Bridge Approaches
20%
Molar Concentration
20%
Fracture Energy
20%
Comparable Result
20%
Ordinary Portland Cement
20%
Mixing Design
20%
Fiber Content
20%
Ground Granulated Blast Furnace Slag
20%
High-Performance Concrete
20%
Scrap Tyre
20%
Fracture Strength
20%
Alkali Activation
20%
Material Science
Sodium
100%
Steel Fiber
100%
Silicate
80%
Flexural Strength
60%
Compressive Strength
20%
Portland Cement
20%
Composite Material
20%
High Performance Concrete
20%