Keyphrases
DLC Coating
100%
Plasma-assisted Chemical Vapor Deposition (PACVD)
77%
Laser Ignition
71%
Nitrides
68%
Adhesion
56%
Duplex
54%
Austenitic Stainless Steel
53%
Methane-air Mixture
53%
High Pressure
53%
Ignition
50%
Wear Resistance
47%
Coated Samples
47%
Si Coating
46%
Plasma Nitriding
46%
Low Friction Coefficient
42%
Friction Coefficient
41%
Deposition Temperature
35%
Mechanical Properties
35%
Thick DLC Coatings
34%
Polymeric Materials
32%
Si Film
31%
Coating Thickness
31%
Diamond-like
28%
Tribological Properties
27%
Tribological Behavior
26%
Wear Conditions
26%
Inhomogeneity Index
25%
Corrosion Resistance
25%
Fouling
23%
Soft Steel
23%
Screw
23%
Mass Loss
22%
Carbon Coating
22%
Steel Surface
22%
Surface Defects
20%
Diode Laser
20%
Surface Coating
20%
Process Gases
20%
Nd-YAG Laser
19%
High Temperature
17%
Corrosion Behavior
17%
Fatigue Wear
17%
Wall Friction
17%
Mechanical Behavior
17%
Fine Powder
17%
Sewage Treatment Plant
17%
Lubrication Condition
17%
AISI 316L Stainless Steel
17%
Severe Wear
17%
Coated Tools
17%
Engineering
Friction Coefficient
60%
Coefficient of Friction
60%
Diamond-Like Carbon
53%
Ignition
53%
Air Mixture
53%
Methane
48%
Austenitic Stainless Steel
44%
Stainless Steel
27%
Wear Resistance
21%
Fouling
21%
Pin-on-Disc
20%
Mass Loss
17%
Deposition Temperature
17%
Severe Damage
17%
Nitrided Sample
17%
Nitriding
17%
Surface Coating
17%
Finer Powder
17%
Fretting
17%
Severe Wear
17%
Pretreatment
17%
Process Gas
17%
Thin Film Growth
17%
Mechanical Property
17%
Sintering
17%
Biogas
17%
Corrosion Resistance
14%
Young's Modulus
12%
Thermal Radiation
11%
Test Period
9%
Salt Spray
8%
Critical Load
8%
Nitride Layer
8%
Plasma Nitriding
8%
General Corrosion
8%
Aluminum Oxide
8%
Sliding Condition
8%
Steel Ball
8%
Atmospheric Corrosion
8%
Energy dispersive spectrometry
8%
Delamination
8%
Erosion Wear
8%
Nitriding Process
8%
Hard Layer
8%
Load Limits
8%
Wear Property
8%
Hydrogen Gas
7%
Laser Beams
7%
Natural Gas Engine
7%
Generated Plasma
7%
Material Science
Film
90%
Coefficient of Friction
47%
Austenitic Steel
44%
Surface Coating
35%
Diamond-Like Carbon Coating
35%
Polymer
32%
Wear Resistance
30%
Contact Angle
29%
Chemical Vapor Deposition
24%
Corrosion Resistance
23%
Lithography
17%
Ceramic Surface
17%
Chemical Vapor Deposition Coating
17%
Diamond Like Carbon Films
17%
Biopolymer
17%
Surface Treatment
17%
Tool Steel
17%
Polymer Melt
17%
Thin Film Growth
17%
Injection Molding
17%
Electrical Resistivity
17%
Fluorescence Microscopy
17%
Materials Engineering
17%
Surface Defect
15%
Young's Modulus
15%
Copolymer
11%
Corrosion
11%
Aluminum Oxide
11%
Atmospheric Corrosion
11%
Polyamide
11%
Delamination
11%
Wettability
8%
Protective Coating
8%
Lubrication
7%
Stainless Steel
5%
Film Thickness
5%
Sliding Wear
5%
Shaft
5%
Refractive Index
5%
Surface Fatigue
5%
Sintering
5%
Thick Films
5%
Polyimide
5%
Polyetheretherketone
5%
Surface Functionalization
5%
Crystal Structure
5%
X-Ray Photoelectron Spectroscopy
5%
Polypropylene
5%
Diamond-Like Carbon
5%
Electron Microscopy
5%