Electrospinning core-shell nanofibers for interfacial toughening and self-healing of carbon-fiber/epoxy composites

Keyphrases

• Electrospinning 100%
• Core-shell Nanofibers 100%
• Interfacial Toughening 100%
• Self-healing 100%
• Carbon-epoxy Composite 100%
• Dicyclopentadiene 60%
• Self-healing Mechanism 60%
• Ultrathin 40%
• Scanning Electron Microscope 40%
• Flexural Stiffness 40%
• Core-shell 40%
• Healing Agent 40%
• Resin Infusion 40%
• Composite Laminates 40%
• Hybrid multiscale 40%
• Pre-damage 40%
• Self-healing Composites 40%
• Reinforced 20%
• High Strength 20%
• Polymer Composites 20%
• Nanofibers 20%
• Delamination 20%
• Three-point Bending Test 20%
• Aerospace Structures 20%
• Fractographic Analysis 20%
• Polyacrylonitrile Fiber 20%
• Novel Hybrids 20%
• Co-electrospinning 20%
• Interfacial Damage 20%
• Polyacrylonitrile 20%
• Molding Process 20%
• Damage in Composites 20%
• Wet Lay-up 20%
• Polyacrylonitrile Nanofibers 20%
• Self-repair 20%
• Carbon Fiber Fabric 20%
• Structural Polymer 20%
• Aeronautical Structures 20%
• Vacuum Assisted Resin Transfer Molding (VARTM) 20%
• Resin Curing 20%

Engineering

• Electrospinning 100%
• Core-Shell 100%
• Toughening 100%
• Nanofiber 100%
• Epoxy Composite 100%
• Multiscale 28%
• Interlayer 28%
• Flexural Stiffness 28%
• Healing Agent 28%
• Scanning Electron Microscope 28%
• Experimental Result 14%
• Delamination 14%
• Three-Point Bending Test 14%
• Micrograph 14%
• Interfacial Damage 14%
• Proof-of-Concept 14%
• Healing Mechanism 14%
• Healing Function 14%
• Vacuum-Assisted Resin Transfer Molding Technique 14%

Material Science

• Electrospinning 100%
• Nanofiber 100%
• Carbon Fiber 100%
• Scanning Electron Microscopy 28%
• Composite Laminate 28%
• Reinforced Composite 14%
• Polymer Composite 14%
• Polyacrylonitrile Fiber 14%
• Structural Polymer 14%
• Molding 14%
• Resin Transfer Molding 14%
• Delamination 14%