Weakening effect of nickel catalyst particles on the mechanical strength of the carbon nanotube/carbon fiber junction

Keyphrases

• Catalyst Particle 100%
• Mechanical Strength 100%
• Carbon Nanotubes 100%
• Carbon Fiber 100%
• Nickel Catalyst 100%
• Weakening Effect 100%
• Multi-walled Carbon Nanotubes (MWCNTs) 75%
• Nickel Nanoparticles (NiNPs) 75%
• Nanoparticles 50%
• Fiber Surface 50%
• Mechanical Properties 25%
• Breakage 25%
• Oxygen Atom 25%
• Carbon Atom 25%
• Aerospace Industry 25%
• Metal Nanoparticles 25%
• Tensile Test 25%
• Structural Materials 25%
• Stress Concentration 25%
• Graphene Layer 25%
• Automotive Industry 25%
• Failure Mechanism 25%
• Reactive Molecular Dynamics 25%
• Mechanical Performance 25%
• ReaxFF 25%
• Pure Nickel 25%
• Carbon Fiber Composite 25%
• Chemical Bond 25%
• Carbon Nanotube Interlayer 25%
• Strong Bond 25%
• Multi-material Interface 25%
• Nickel Atom 25%
• Tension Properties 25%

Material Science

• Carbon Nanotube 100%
• Carbon Fiber 100%
• Strength of Materials 100%
• Nanoparticle 83%
• Graphene 50%
• Surface (Surface Science) 33%
• Building Material 16%
• Metal Nanoparticle 16%
• Stress Concentration 16%
• Interface (Material) 16%
• Chemical Bonding 16%
• Fiber-Reinforced Composite 16%

Engineering

• Carbon Nanotube 100%
• Catalyst Particle 100%
• Nanoparticle 83%
• Graphene 33%
• Fibre Surface 33%
• Failure Mechanism 16%
• Tensile Test 16%
• Structural Materials 16%
• Automotives 16%
• Stress Concentration 16%
• Breakage 16%
• Layer Graphene 16%
• Fiber-Reinforced Composite 16%
• Mechanical Performance 16%
• Material Interface 16%
• Computer Simulation 16%
• Metal Nanoparticle 16%