Keyphrases
Diamond-like
100%
Transcranial Alternating Current Stimulation (tACS)
49%
Carbon Coating
43%
Carbon Interfaces
36%
Post-buckling
33%
Functionally Graded Cylindrical Shell
33%
Shell Thickness
33%
Snap-through
33%
Boundary Lubrication
33%
Base Oil
32%
Hydrogenated
25%
Friction Behavior
24%
Wear Performance
22%
Lubricant
22%
Tribological Performance
22%
Tribofilm
22%
Post-buckling Behavior
22%
Snapback
22%
Wear Behavior
22%
ZnDTP
21%
Zinc Phosphate
20%
Polyalphaolefin
19%
Friction Performance
18%
Ultralow Friction
17%
DLC Coating
16%
Oil Lubrication
16%
Diamond-like Carbon
16%
3D Scanning
16%
Carbon Diffusion
16%
Friction Properties
16%
Scanning Electron Microscope Observation
16%
Carbon Effect
16%
Wear Properties
16%
Self-performance
16%
Oil Temperature
16%
Additive Concentration
16%
Oil Additives
16%
Synthetic Base Oil
16%
Tribofilm Formation
16%
Temperature Concentration
16%
Mechanical Properties
16%
Hard Coating
12%
Diamond-like Carbon Coating
11%
Post-buckling Analysis
11%
Compositional Gradient
11%
Functionally Graded Shells
11%
Post-buckling Response
11%
Arc-length Method
11%
Nonlinear Finite Element Method
11%
Material Composition
11%
Engineering
Buckling
33%
Snap-Through
33%
Cylindrical Shell
33%
Diamond-Like Carbon
33%
Shell Thickness
33%
Buckling Behavior
22%
Friction Coefficient
18%
Poly-Alpha-Olefins
16%
Scanning Electron Microscope
16%
Boundary Lubrication
16%
Oil Temperature
16%
Antiwear Additive
11%
Minor Effect
11%
Concentrated Load
11%
Metal Layer
11%
Material Composition
11%
Ceramic Layer
11%
Length Method
11%
Shell Edge
11%
Arc Length
11%
Buckling Analysis
11%
Material Layer
11%
Finite Element Method
11%
Linear Finite Element
11%
Sliding Surface
8%
Lubricant
8%
Characterization Method
8%
Material Science
Diamond-Like Carbon
93%
Diamond-Like Carbon Coating
66%
Amorphous Material
38%
Boundary Lubrication
34%
Tribological Performance
25%
Antiwear Additive
23%
Wear Property
18%
Scanning Electron Microscopy
16%
Lubrication
16%
Lubricant
16%
Lubricant Additive
15%
Hard Coating
13%
Chromium
10%
Wear Resistance
9%
Film
8%
Carbon Steel
8%
Semiconductor Doping
7%
Raman Spectroscopy
5%