Keyphrases
Surface Engineered
100%
Beta Titanium Alloy
100%
Tribological Performance
100%
Beta Alloy
100%
Titanium Alloy
66%
Friction Coefficient
66%
Treated Surface
66%
Wear Mechanism
66%
Hardened Steel
66%
Steel Ball
66%
Ceramic Conversion
66%
Delamination Wear
66%
Heat Treatment
33%
Microstructure
33%
Surface Treatment
33%
Wear Resistance
33%
Adhesive Wear
33%
Pressure-induced
33%
Sliding Wear Test
33%
Oil Lubrication
33%
Sports Applications
33%
WC-Co
33%
Frictional Force
33%
Process-based
33%
Aerospace
33%
Abrasive Wear
33%
Surface Engineering Process
33%
Wear Track
33%
Pin-on-disc
33%
Wear Debris
33%
Severe Wear
33%
In Situ TEM
33%
Optimal Integration
33%
Oil Lubricated Conditions
33%
Induced Delamination
33%
Oil Pressure
33%
Conversion Layer
33%
Motorsport
33%
Engineering
Coefficient of Friction
100%
Hardened Steel
100%
Steel Ball
100%
Tribological Performance
100%
Heat Treatment
50%
Experimental Result
50%
Pin-on-Disc
50%
Wear Resistance
50%
Adhesive Wear
50%
Automotives
50%
Abrasive Wear
50%
Frictional Force
50%
Sliding Wear
50%
Wear Debris
50%
Oil Lubrication
50%
Severe Wear
50%
Surface Engineering Process
50%
Induced Delamination
50%
Scuffing
50%
Oil Pressure
50%
Delamination
50%
Material Science
Surface (Surface Science)
100%
Beta Titanium Alloys
100%
Tribological Performance
100%
Titanium Alloy
50%
Hardened Steel
50%
Coefficient of Friction
50%
Delamination
50%
Heat Treatment
25%
Surface Engineering
25%
Wear Resistance
25%
Adhesive Wear
25%
Lubrication
25%
Sliding Wear
25%
Wear Debris
25%
Ceramic Surface
25%
Scuffing
25%
Surface Treatment
25%