Engineering
Co-Curing
100%
Metal Foil
100%
Hybrid Composite
100%
Aerospace Material
100%
Steel
100%
Resin Transfer Molding
100%
Carbon Fibre Reinforced Polymer
75%
Joints (Structural Components)
50%
Washers
50%
Load Introduction
50%
Performance
50%
Surface
50%
Design
50%
Production Method
50%
Laminate
50%
Pultrusion
25%
Thickness
25%
Carbon Fibre-Reinforced Polymer Composite
25%
Production
25%
Bolt
25%
Shear Damage
25%
Aviation
25%
Cost Reduction
25%
Ductile Failure
25%
Indentation
25%
Hybrid
25%
Combines
25%
Local Stress
25%
Automotives
25%
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%
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%
Surface
33%
Indentation
16%
Plasticity
16%
Pultrusion
16%
Polymer Composite
16%
Keyphrases
Resin Transfer Molding
100%
Steel Foil
100%
Interleaved Configuration
25%
Bearing Joint
25%
Shear Damage
25%
Polymeric Patch
25%
Confined Region
25%