Hybrid nano/microcomposites for enhanced fracture toughness and fatigue life

INIS

• hybrids 100%
• strains 75%
• fatigue 75%
• energy 62%
• fracture toughness 62%
• beams 50%
• matrices 37%
• shear 25%
• amplitudes 25%
• crack growth 25%
• carbon nanotubes 25%
• bending 25%
• dynamic loads 25%
• resins 12%
• lifetime 12%
• mechanical properties 12%
• investigations 12%
• tolerance 12%
• nanocomposites 12%
• curves 12%
• carbon 12%
• damage 12%
• loading 12%
• copolymers 12%
• dispersions 12%
• mixtures 12%
• composite materials 12%
• epoxides 12%
• carbon fibers 12%
• young modulus 12%

Engineering

• Hybrid Composite 75%
• Impact Toughness 62%
• Strain-Energy Release Rate 62%
• Composite 37%
• Amplitudes 25%
• Beam Specimen 25%
• Mechanical Fatigue Test 25%
• Crack Growth Rate 25%
• Young's Modulus 25%
• Stress Intensity 25%
• Enhancement 12%
• Hybrid Process 12%
• Investigated Material 12%
• Hybrid Test 12%
• Multi-Walled Carbon Nanotube 12%
• Cyclic Loading 12%
• Point Bending 12%
• Plane Strain Condition 12%
• Double-Cantilever Beam 12%
• Fiber Preform 12%
• Fatigue Cycle 12%
• Measured Strain 12%
• Mechanical Properties 12%
• Demonstrates 12%
• Determines 12%
• Properties 12%
• Hybrid 12%
• Mixture 12%
• Reinforced Composite Material 12%
• End-Notched Flexure 12%

Material Science

• Fracture Toughness 62%
• Cyclic Loads 50%
• Fatigue of Materials 37%
• Damage Tolerance 25%
• Carbon Nanotubes 25%
• Nanocomposites 12%
• Block Copolymer 12%
• Shear Testing 12%
• Epoxy 12%
• Carbon Fiber 12%
• Mechanical Property 12%
• Dispersion 12%
• Mixture 12%
• Bending 12%
• Delamination 12%