Material Science
Oxidation Reaction
100%
Wear Resistance
82%
Titanium
35%
Sliding Wear
34%
Oxide Compound
30%
Matrix Composite
27%
Thin Films
25%
Powder
25%
ZnO
25%
Nitriding
24%
Hardfacing
24%
Al2O3
23%
Tribological Performance
22%
Aluminum Alloys
22%
Titanium Dioxide
21%
Stellite
20%
Abrasion
18%
Corrosion
17%
Aluminum Oxide
16%
Carbide
16%
Tool Steel
16%
Scanning Electron Microscopy
15%
Boride
14%
Silver
14%
Composite Coating
13%
Austenitic Stainless Steels
13%
Corrosion Resistance
13%
Alloying
11%
Film
10%
Ti-6Al-4V
10%
Magnesium Alloy
10%
Physical Vapor Deposition
9%
Heterojunction
9%
Surface Treatment
9%
Cobalt
9%
Zirconia
9%
Sol-Gel
8%
Indentation
8%
Titanium Oxide
8%
Oxide Coating
8%
X-Ray Diffraction
8%
Fracture Toughness
7%
Hot Pressing
7%
Boron
7%
Coefficient of Friction
7%
Surface Roughness
7%
Nitride Compound
7%
Residual Stress
6%
Magnesium Alloys
6%
Plastic Deformation
6%
Keyphrases
Wear Resistance
64%
Micro-arc Oxidation
47%
Mechanical Properties
38%
Ti-6Al-4V Alloy
29%
Rutile
27%
Wear Test
27%
Aluminum Oxide
25%
Wear Behavior
25%
Nitrides
24%
Electrolyte
24%
Tribological Performance
20%
Dry Sliding Wear
20%
Room Temperature
19%
Hardfacing
18%
Thermal Oxidation
18%
Microstructure
18%
Oxidation Mechanism
18%
Stellite12
16%
Oxide Layer
16%
Wear Performance
16%
Micro-arc Oxidation Coating
15%
Commercially Pure Titanium (CP-Ti)
15%
Al Thin Film
14%
Sliding Wear Behavior
13%
Surface Hardness
13%
Austenitic Stainless Steel
13%
Biomedical Applications
12%
Microstructure Properties
12%
Boride Layer
12%
Corrosion Resistance
12%
Ti-6Al-7Nb Alloy
11%
Borides
11%
SiC Particles
11%
As-received
11%
Wear Characteristics
11%
Abrasive Wear Behavior
10%
Aluminum Alloy
10%
Cold Spray
10%
Laser Surface Melting
10%
Reinforced
10%
Ti-6Al-4V (Ti64)
10%
ZrN Coating
10%
Wear Tester
10%
Tribological Behavior
10%
Diffusion Zone
10%
Composite Coating
9%
Impact-sliding Wear
9%
Retrogression
9%
Si Heterojunction
9%
Rubbing
9%
Engineering
Wear Resistance
44%
Sliding Wear
28%
Microstructure
23%
Oxide Layer
19%
Room Temperature
16%
Thin Films
14%
Austenitic Stainless Steel
12%
Thermal Oxidation
12%
Sliding Condition
12%
Diffusion Zone
11%
Tool Steel
11%
Biomedical Application
10%
Impact Toughness
10%
Tribological Performance
10%
Boriding
9%
Low-Temperature
8%
Coefficient of Friction
8%
Al Matrix
7%
Laser Surface
7%
Pure Titanium
7%
Al Alloy
7%
Nitriding
7%
Surface Layer
7%
Corrosion Resistance
7%
Contact Pressure
7%
Ti-6al-4v Alloy
7%
Low Temperature Nitriding
7%
Elevated Temperature
7%
Aluminum Oxide
6%
Gas Nitriding
6%
Fatigue Behavior
6%
Aluminum Matrix
6%
Dip Coating
6%
Abrasive Wear
5%
Annealing Temperature
5%
Stress Corrosion Cracking
5%
Reinforced Al
5%
Hot Pressing
5%
Indentation
5%
Counterface
5%
Arc Transfer
5%
Alloying
5%
Experimental Result
5%
Bioactivity
5%
Activation Energy
5%