Local reinforcement of aerospace structures using co-curing RTM of metal foil hybrid composites

INIS

• molding 100%
• foils 100%
• hybrids 100%
• curing 100%
• metals 100%
• resins 100%
• steels 66%
• polymers 66%
• carbon fibers 66%
• production 50%
• shear 50%
• design 33%
• surfaces 33%
• compression 33%
• performance 33%
• bolts 16%
• increasing 16%
• failures 16%
• reduction 16%
• damage 16%
• aerospace industry 16%
• weight 16%
• geometry 16%
• thickness 16%
• processing 16%
• comparative evaluations 16%
• holes 16%
• automotive industry 16%
• cost 16%
• configuration 16%
• plasticity 16%

Engineering

• Co-Curing 100%
• Metal Foil 100%
• Hybrid Composite 100%
• Resin Transfer Molding 100%
• Carbon Fibre Reinforced Polymer 75%
• Joints (Structural Components) 50%
• Washers 50%
• Load Introduction 50%
• Design 50%
• Production Method 50%
• Laminate 50%
• Pultrusion 25%
• Carbon Fibre-Reinforced Polymer Composite 25%
• Shear Damage 25%
• Aviation 25%
• Ductile Failure 25%
• Indentation 25%
• Combines 25%
• Local Stress 25%
• Automotives 25%

Material Science

• Composite Material 100%
• Metal Foil 100%
• Resin Transfer Molding 100%
• Aerospace Material 100%
• Carbon Fiber 66%
• Spring Steel 66%
• Reinforced Plastic 66%
• Mechanical Strength 50%
• Plasticity 16%
• Pultrusion 16%
• Polymer Composite 16%