Engineering & Materials Science
Coatings
100%
Plasmas
93%
Heat treatment
65%
Nitriding
49%
CCD cameras
49%
Friction
45%
Wear of materials
42%
Hard coatings
38%
Charge coupled devices
35%
Austenitic stainless steel
34%
Characterization (materials science)
33%
Metals
32%
Temperature
32%
Infrared imaging
30%
Image processing
30%
Steel
29%
Adhesion
29%
Tool steel
29%
Plasma polymerization
27%
Tempering
27%
Die casting
26%
Hardness
24%
Alloy steel
24%
Infrared radiation
23%
Chemical vapor deposition
23%
Hardening
20%
Erosion
19%
Wear resistance
19%
Substrates
18%
Optical emission spectroscopy
18%
Chromium plating
17%
Soldering
17%
Plasma sources
17%
Film growth
17%
Carbon films
17%
Corrosion
17%
Diamond like carbon films
17%
Nanoimprint lithography
17%
Nitridation
17%
Aluminum
16%
Glow discharges
16%
Hot Temperature
15%
Carbon
15%
Titanium nitride
15%
Imaging systems
15%
Imaging techniques
15%
Surface treatment
15%
Wetting
14%
Light emission
14%
Surface hardening
13%
Physics & Astronomy
coatings
91%
CCD cameras
41%
nitriding
38%
heat treatment
37%
steels
35%
coefficient of friction
32%
friction
30%
image processing
27%
charge coupled devices
27%
wear resistance
26%
metals
26%
reactors
24%
screws
24%
carbon
24%
adhesion
23%
wear tests
22%
diamonds
21%
stainless steels
21%
corrosion
19%
characterization
19%
polymers
19%
metal oxides
18%
inserts
18%
temperature measurement
18%
erosion
18%
soldering
17%
light emission
17%
austenitic stainless steels
17%
temperature
17%
pretreatment
16%
hardness
16%
thermal fatigue
15%
inspection
15%
direct current
15%
cameras
15%
aluminum
15%
emissivity
14%
plastics
14%
surface properties
13%
generators
13%
fine structure
13%
injection molding
13%
corrosion resistance
13%
titanium nitrides
13%
optical emission spectroscopy
12%
vapor deposition
12%
pellets
12%
plating
12%
industrial plants
11%
life (durability)
11%
Chemical Compounds
Coating Agent
82%
Wear
70%
Plasma
65%
Heat Treatment
60%
Liquid Film
43%
Friction Coefficient
35%
Tempering
32%
Metal
26%
Surface
26%
Emissivity
23%
Pipe and Tubes
21%
Hexamethyldisiloxane
20%
Casting
19%
Soldering
19%
Plasma Polymerization
19%
Thermal Fatigue
18%
Resistance
17%
Alloy
17%
Surface Hardening
17%
Pyrometry
16%
Photon
15%
Surface Modification
15%
Carbon Atom
15%
Corrosion Resistance
14%
Chemical Vapour Deposition
14%
Optical Emission Spectroscopy
13%
Nitride
13%
Corrosion
13%
Glow Discharge
13%
Gas
12%
Application
11%
Diamond
10%
Homogeneity
9%
Fog
9%
Wavelength
9%
Heat
8%
Microhardness
8%
Ceramic
8%
Abrasive
8%
Thermal Cycling
6%
Surface Defect
6%
Behavior as Electrode
6%
Spray
6%
Time
6%
Thermal Cracking
5%
Liquid
5%
Foil
5%
Solvent
5%
Reduction
5%
