In situ formation of titanium carbide using titanium and carbon-nanotube powders by laser cladding

Keyphrases

• Carbon Nanotubes 100%
• Titanium Carbide 100%
• Laser Cladding 100%
• In Situ Formation 100%
• Titania Nanotubes 100%
• Microhardness 40%
• Composite Layer 40%
• Dry Sliding Wear 40%
• Mechanical Properties 20%
• Microstructure 20%
• Scanning Electron Microscopy 20%
• Laser Irradiation 20%
• Phase Composition 20%
• Reinforced 20%
• High Hardness 20%
• Dendrite 20%
• Wear Resistance 20%
• Microstructural Observation 20%
• Metal Matrix Composite Coating 20%
• Titanium(III) 20%
• Precursor Material 20%
• High Temperature Wear Resistance 20%
• α-titanium 20%
• In-situ Reaction 20%
• Reinforcement Phase 20%
• Ti Matrix Composites 20%
• Titanium Matrix Composites 20%
• Starting Precursor 20%

Material Science

• Titanium Carbide 100%
• Titanium 100%
• Carbon Nanotubes 100%
• Wear Resistance 80%
• Sliding Wear 40%
• Microhardness 40%
• Composite Material 20%
• Scanning Electron Microscopy 20%
• Composite Coating 20%
• Matrix Composite 20%
• Metal Matrix Composite 20%
• Phase Composition 20%

Engineering

• Situ Formation 100%
• Carbon Nanotubes 100%
• Laser Cladding 100%
• Wear Resistance 80%
• Sliding Wear 40%
• Microhardness 40%
• Precursor Material 20%
• Metal Matrix Composite 20%
• Laser Irradiation 20%
• Composite Coating 20%
• Phase Composition 20%