Keyphrases
Plasma-assisted Chemical Vapor Deposition (PACVD)
100%
DLC Coating
66%
Plasma Nitriding
59%
Nitrides
57%
Adhesion
52%
Heat Treatment Process
50%
Friction Coefficient
48%
CCD Camera
44%
Duplex
34%
Austenitic Stainless Steel
33%
Wear Resistance
32%
Si Coating
31%
Si Film
31%
Coated Samples
29%
Tribological Behavior
28%
Low Friction Coefficient
26%
Hard Coating
25%
Hexamethyldisiloxane (HMDSO)
24%
Aluminum Die Casting
22%
Deposition Temperature
22%
Metal Substrate
22%
Temperature Mapping
22%
Plasticizing
22%
Process Gases
22%
Low Alloy
22%
Pellet Size
22%
Mechanical Properties
22%
Single Screw
22%
Tool Steel
22%
Heat Treatment Cycle
22%
Metal Parts
22%
Tempered Behavior
22%
Hardening Behavior
22%
Corrosion Resistance
22%
Metal Oxide
22%
Wall Friction
22%
Steel Substrate
21%
DLC Film
21%
Thick DLC Coatings
21%
Carbon Coating
19%
Coating Thickness
19%
Stainless Steel
19%
Gas Mixture
19%
Reactor
19%
Surface Properties
18%
Diamond-like
17%
Tribological Properties
17%
Wear Conditions
16%
Hardmetal
16%
Growth Rate
16%
Engineering
Friction Coefficient
60%
Coefficient of Friction
60%
Diamond-Like Carbon
33%
Heat Treatment
31%
Heat Treatment Process
28%
Austenitic Stainless Steel
28%
Plasma Nitriding
26%
Tool Steel
26%
Gas Mixture
24%
Image Processing
22%
Methane
22%
Coated Tool
22%
Aluminum Die Casting
22%
Process Gas
22%
Plasma Polymerization
22%
Wear Resistance
17%
Stainless Steel
17%
Critical Load
16%
Friction Angle
14%
Soldering
14%
Deposited Film
13%
Pin-on-Disc
13%
Corrosion Resistance
13%
Steel Surface
12%
Microhardness
12%
Mass Loss
11%
Deposition Temperature
11%
Temperature Mapping
11%
Imaging Systems
11%
Camera System
11%
Severe Damage
11%
Nitrided Sample
11%
Pretreatment
11%
Nitriding
11%
Surface Coating
11%
Finer Powder
11%
Fouling
11%
Test Result
11%
Fretting
11%
Slippage
11%
Mechanical Property
11%
Surface Integrity
11%
Flow Channel
11%
Processing Software
11%
Plasma Source
11%
Grayscale
11%
Measurement
11%
Severe Wear
11%
Die Casting
11%
Fatigue Behavior
11%
Material Science
Film
70%
Coefficient of Friction
41%
Heat Treatment
33%
Austenitic Steel
28%
Tool Steel
22%
Diamond-Like Carbon Coating
22%
Metal Oxide
22%
Chemical Vapor Deposition
19%
Wear Resistance
19%
Gas Mixture
19%
Aluminum Oxide
18%
Physical Vapor Deposition
18%
Corrosion Resistance
14%
Polymer
14%
Scanning Electron Microscopy
12%
Surface Hardening
12%
Polypropylene
11%
Nitriding
11%
Hard Coating
11%
Die Casting
11%
Plasma Polymerization
11%
Surface Property
11%
Magnetron Sputtering
11%
Nitride Compound
11%
Surface Coating
11%
Lithography
11%
Ceramic Surface
11%
Chemical Vapor Deposition Coating
11%
Diamond Like Carbon Films
11%
Titanium
11%
Biopolymer
11%
Surface Treatment
11%
Zinc Oxide Nanoparticles
11%
Nanowire
11%
Thin Film Growth
11%
Piezoelectricity
11%
Injection Molding
11%
Electrical Resistivity
11%
Emission Spectroscopy
11%
Sputter Deposition
11%
Surface Characterization
11%
Silicon Carbide
11%
Thermal Fatigue
11%
Surface Defect
9%
Young's Modulus
9%
Corrosion
7%
Delamination
7%
Atmospheric Corrosion
7%
Metal Surface
6%
High Strength Steels
6%