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Fingerprint Dive into the research topics where Hiroyuki Kawada is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

Engineering & Materials Science

Carbon fiber reinforced plastics
Laminates
Plastic laminates
Composite materials
Fibers
Fatigue of materials
Glass fibers
Cracks
Crack propagation
Debonding
Fracture toughness
Polymer matrix composites
Crack initiation
Strain rate
Mechanical properties
Degradation
Thermoplastics
Carbon fibers
Tensile strength
Carbon carbon composites
Delamination
Stress concentration
Creep
Stress corrosion cracking
Glass fiber reinforced plastics
Glass
Aging of materials
Mirrors
Epoxy resins
Plastics
Dimensional stability
Tensile properties
Moisture
Finite element method
Resins
Water
Fatigue damage
Bending tests
Thermal stress
Carbon
Energy release rate
Carbon nanotubes
Loads (forces)
Residual stresses
Deionized water
Fiber reinforced materials
Fiber reinforced plastics
Cryogenics
Energy absorption
Compressive strength

Chemical Compounds

Plastic laminates
Laminates
Composite materials
Fibers
Fatigue of materials
Cracks
Crack propagation
Debonding
Strain rate
Fracture toughness
Polymer matrix composites
Crack initiation
Degradation
Thermoplastics
Carbon carbon composites
Tensile strength
Mechanical properties
Epoxy Resins
carbon fiber reinforced plastic
Stress corrosion cracking
Delamination
Stress concentration
Glass fiber reinforced plastics
Aging of materials
Mirrors
Carbon
Creep
Tensile properties
Water
Resins
Plastics
Fatigue damage
Thermal stress
Moisture
Finite element method
Dimensional stability
Glass
Deionized water
Energy release rate
Aluminum
Residual stresses
polycarbonate
Loads (forces)
Cryogenics
Energy absorption
Compressive strength
Fiber reinforced plastics
Energy dissipation