Engineering & Materials Science
Oxidation
100%
Oxides
70%
Thermal barrier coatings
61%
Superalloys
56%
Coatings
46%
Nickel
32%
Alumina
27%
Temperature
24%
Creep
20%
Air
19%
Delamination
18%
Aluminum
16%
Thermooxidation
15%
Yttria stabilized zirconia
15%
Cooling
14%
Grain boundaries
13%
Sulfides
13%
Carbon
13%
Scanning electron microscopy
12%
Physical vapor deposition
11%
Austenitic stainless steel
11%
Plasmas
11%
Electron microscopy
10%
Stainless steel
9%
Optical recording
9%
X-Ray Emission Spectrometry
8%
Corrosion resistant coatings
8%
Shot peening
8%
Cracks
7%
Focused ion beams
7%
Substrates
7%
Synchrotrons
7%
Tensile stress
7%
Microstructural evolution
7%
Steam
7%
Characterization (materials science)
7%
Chromium
6%
Durability
6%
Strain energy
6%
Thermal cycling
6%
High resolution electron microscopy
6%
Crack initiation
6%
Heating rate
6%
Deposits
6%
Diffraction
6%
Surface treatment
6%
Microstructure
5%
Energy dispersive spectroscopy
5%
Fatigue of materials
5%
Plasma spraying
5%
Physics & Astronomy
oxidation
80%
heat resistant alloys
73%
oxides
41%
coatings
34%
nickel
30%
coating
30%
spallation
29%
kinetics
24%
shot peening
18%
aluminum oxides
15%
aluminum
13%
air
13%
boundary layer separation
12%
temperature
12%
cracks
11%
steels
10%
characterization
10%
depletion
10%
endurance
9%
turbines
9%
cycles
9%
yttria-stabilized zirconia
9%
damage
9%
grain boundaries
9%
synchrotrons
9%
fatigue life
8%
electron microscopy
8%
spinel
8%
creep properties
7%
scanning electron microscopy
7%
carbon
7%
crack initiation
7%
titanium
7%
corrosion
7%
low concentrations
7%
Inconel (trademark)
7%
chromium
6%
cooling
6%
steam
6%
sulfides
6%
gas turbines
5%
performance
5%
beds
5%
preparation
5%
microstructure
5%
augmentation
5%
x rays
5%
voids
5%
Chemistry
Thermal Barrier Coating
60%
Oxidation Reaction
46%
Oxide
42%
Coating Agent
33%
Creep
29%
Alloy
24%
Grain Boundary
17%
Carbonyl Sulfide
16%
Cooling
16%
Delamination
15%
Protective
13%
Thermooxidation
13%
Surface
13%
Oxidation Kinetics
12%
Diffusion
12%
Shot Peening
11%
Creep Strength
10%
Time
10%
Crack Initiation
10%
Turbine
9%
Strain
8%
Carbon Atom
8%
Superalloys
7%
Electron Microscopy
7%
Thermal Cycling
7%
Ceramic
6%
Ion Beam
6%
Pressure
6%
Gas
5%
Ambient Reaction Temperature
5%
Microstructure
5%