Improvement in the tribological properties of UHMWPE sliding against Ti6Al4V by surface modification

Keyphrases

• Surface Modification 100%
• Ti-6Al-4V (Ti64) 100%
• Ultra-high Molecular Weight Polyethylene (UHMWPE) 100%
• Tribological Properties 100%
• Thermal Oxidation 44%
• Surface Engineering 33%
• Oxidation Treatment 22%
• Ion Implantation 22%
• Ti-6A1-4V 22%
• Tribosystem 22%
• Biomaterials 11%
• Beans 11%
• Titanium Alloy 11%
• Surface Engineered 11%
• Pin-on-disc Tribometer 11%
• Wear Resistance 11%
• Engineering Technique 11%
• Counterface 11%
• Lubrication Condition 11%
• Water Lubrication 11%
• Promising Technology 11%
• Wear Mechanism 11%
• Bombardment 11%
• Surface Oxide Layer 11%
• Full Potential 11%
• Medical Implants 11%
• Orthopedic Implants 11%
• Tribological Performance 11%
• Tribological Response 11%
• Implant-supported 11%
• Tribological Compatibility 11%
• Molecular Structure Modification 11%

Material Science

• Polyethylene 100%
• Surface Modification 100%
• Surface (Surface Science) 33%
• Surface Engineering 33%
• Titanium Alloy 11%
• Wear Resistance 11%
• Ion Implantation 11%
• Oxide Surface 11%
• Molecular Structure 11%
• Biomaterial 11%
• Medical Implant 11%
• Tribological Performance 11%

Engineering

• High Molecular Weight Polyethylene 100%
• Thermal Oxidation 44%
• Engineering 33%
• Experimental Result 11%
• Oxide Layer 11%
• Implant 11%
• Ion Implantation 11%
• Pin-on-Disc 11%
• Counterface 11%
• Wear Resistance 11%
• Surface Oxide 11%
• Medical Implant 11%
• Tribological Performance 11%
• Bombardment 11%