Response of short jute fibre preform based epoxy composites subjected to low-velocity impact loadings

INIS

• loading 100%
• fibers 100%
• velocity 100%
• epoxides 100%
• jute 100%
• pva 58%
• comparative evaluations 33%
• energy 33%
• matrices 25%
• binders 25%
• applications 16%
• computerized tomography 16%
• values 16%
• damage 16%
• incidents 16%
• energy levels 16%
• x radiation 16%
• surfaces 8%
• investigations 8%
• devices 8%
• images 8%
• fractures 8%
• failures 8%
• interfaces 8%
• performance 8%
• scanning electron microscopy 8%
• crack propagation 8%
• polymers 8%
• tomography 8%
• laboratories 8%
• lignin 8%
• waxes 8%
• hemicellulose 8%
• brittleness 8%
• n-1440 baryons 8%

Engineering

• Epoxy Composite 100%
• Impact Loads 100%
• Fiber Preform 100%
• Jute Fiber 100%
• Impact Energy 60%
• Impact Force 40%
• Alkali Treatment 40%
• Composite Structure 20%
• Composite Fiber 20%
• Damage Mode 20%
• Impact Response 20%
• Impact Behavior 20%
• Fibre Surface 20%
• Damage Analysis 20%
• Optimized Process 20%
• Epoxy Matrix 20%
• Matrix Interface 20%
• Crack Propagation 20%
• Failure Mode 20%
• Impact Damage 20%
• Impact Resistance 20%
• Brittleness 20%
• Preforming 20%
• Jute Composite 20%
• Composite Binder 20%
• Hemicellulose 20%

Material Science

• Composite Material 100%
• Impact Loads 100%
• Epoxy-Based Composite 100%
• Jute Fiber 100%
• Tomography 9%
• Lignin 9%
• Reinforced Composite 9%
• Poly Vinyl Alcohol 9%
• Matrix Composite 9%
• Scanning Electron Microscopy 9%
• Crack Propagation 9%
• Surface (Surface Science) 9%
• Impact Resistance 9%
• Brittleness 9%