Material Science
Ionic Liquid
100%
Surface (Surface Science)
69%
Stainless Steel
50%
Lubricant Additive
44%
Phase Composition
36%
Bearing Steel
22%
Austenite
22%
Heat Treatment
20%
Diamond-Like Carbon Coating
16%
Microsphere
16%
Volume Fraction
16%
Diamond-Like Carbon
16%
Electrical Conductivity
16%
Scanning Electron Microscopy
16%
Focused Ion Beam
16%
Austenitic Steel
16%
Thermal Stability
11%
Aluminum Oxide
11%
Energy-Dispersive X-Ray Spectroscopy
11%
Oxide Compound
10%
Compressive Strength
9%
Carbide
8%
Adsorption Kinetics
8%
X-Ray Photoelectron Spectroscopy
8%
Scanning Transmission Electron Microscopy
7%
Sliding Friction
5%
Plastic Deformation
5%
Film Growth
5%
Tribocorrosion
5%
Engineering
Friction Modifier
47%
Lubricant Additive
30%
Adsorbed Layer
25%
Retained Austenite
20%
Heat Treatment
20%
Stainless Steel
20%
Subsurface
18%
Impact Energy
16%
Austenite Fraction
16%
Epoxy Composite
16%
Microsphere
16%
Holding Time
16%
Start Temperature
16%
Head Type
16%
Composite Material
16%
Bearing Steel
16%
Electrical Conductivity
16%
Contact Pressure
12%
Room Temperature
8%
Heat Treatment Process
8%
Salt Baths
8%
Friction Value
8%
Metallic Surface
8%
Good Thermal Stability
8%
Electrical Impedance
8%
Anti-Wear Agent
8%
Quartz Crystal Microbalance
8%
Friction Coefficient
8%
Coefficient of Friction
8%
Tribological Behavior
5%
Beneficial Effect
5%
Durables
5%
High Electrical Conductivity
5%
Alloy
5%
Critical Level
5%
Electric Vehicle
5%
Active Surface
5%
Environmental Technology
5%