Integrated experimental approach for alloying of surface layer Ti6Al4V? metal matrix composites using laser treatment

Physics & Astronomy

• metal matrix composites 97%
• alloying 70%
• surface layers 69%
• lasers 34%
• titanium alloys 18%
• dilution 17%
• industries 14%
• rotating shafts 13%
• dry friction 12%
• sliding friction 12%
• worms 11%
• boron carbides 11%
• evaluation 11%
• tungsten carbides 11%
• automobiles 10%
• turbine blades 10%
• composite materials 10%
• debris 9%
• high aspect ratio 9%
• reinforcement 9%
• coefficient of friction 8%
• sliding 8%
• microhardness 8%
• balls 8%
• aspect ratio 8%
• deposits 8%
• surface roughness 7%
• manufacturing 7%
• engineering 6%
• ceramics 5%

Engineering & Materials Science

• Alloying 92%
• Lasers 60%
• Wear of materials 58%
• Metals 51%
• Composite materials 46%
• Dilution 19%
• Titanium alloys 18%
• Aspect ratio 16%
• Boron carbide 12%
• Friction 12%
• Tungsten carbide 10%
• Debris 9%
• Nuclear energy 9%
• Microhardness 8%
• Deposits 8%
• Turbomachine blades 8%
• Automobiles 8%
• Industry 7%
• Surface roughness 7%
• Repair 7%
• Powders 7%
• Reinforcement 7%
• Turbines 6%

Chemical Compounds

• Metal Matrix Composites 100%
• Alloying 82%
• Wear 75%
• Surface 25%
• Titanium Alloy 21%
• Dilution 14%
• Nuclear Power 13%
• Industry 13%
• Shaft 12%
• Turbine 11%
• Tungsten Carbide 11%
• Friction Coefficient 9%
• Microhardness 9%
• Surface Roughness 8%
• Composite Material 8%
• Boron Atom 7%
• Ceramic 6%
• Alloy 6%
• Application 5%