Novel Blast and Fire Resistant Composite Materials: Design and Preliminary Results

Keyphrases

• Composite Material Design 100%
• Fire Resistant Composites 100%
• Fire-resistant 100%
• Blast Resistance 100%
• Laminated Materials 83%
• Hybrid Laminates 83%
• Geopolymer Concrete 66%
• Ultra-high Performance Fiber Reinforced Concrete (UHPFRC) 50%
• Waste Materials 33%
• Industrial Waste 33%
• Construction Materials 33%
• Novel Hybrids 33%
• Blast Event 33%
• Economic Benefits 16%
• Environmental Benefits 16%
• Production Cost 16%
• High Energy Absorption 16%
• Circular Economy Principles 16%
• High Compressive Strength 16%
• High-rise Building 16%
• Energy Absorption Capacity 16%
• Geopolymerization 16%
• Material Construction 16%
• Exploratory Test 16%
• Thermomechanical Performance 16%
• Fire Resistance 16%
• Inner Layer 16%
• High Flexural Strength 16%

Engineering

• Fiber-Reinforced Concrete 100%
• High Performance Fiber 100%
• Composite Material 100%
• Final Product 33%
• Applicability 33%
• Rise Building 33%
• Environmental Benefit 33%
• Economic Benefit 33%
• Energy Absorption Capacity 33%
• Geopolymerization 33%
• Outer Layer 33%
• Compression Strength 33%
• Compressive Strength 33%
• Bending Strength 33%
• Combustibility 33%

Material Science

• Materials Design 100%
• Fiber Reinforced Concrete 100%
• Composite Material 100%
• Building Material 66%
• Flexural Strength 33%
• Fire Resistance 33%