Physics & Astronomy
heat resistant alloys
100%
oxidation
77%
shot peening
42%
crack initiation
32%
fatigue life
32%
damage
30%
oxides
29%
kinetics
24%
characterization
22%
turbines
17%
Inconel (trademark)
16%
rails
15%
performance
13%
beds
12%
stainless steels
11%
voids
11%
grain boundaries
11%
titanium
11%
fusion
10%
nickel
10%
rutile
10%
cycles
10%
ion beams
10%
preparation
9%
eddy currents
9%
electromagnetism
9%
augmentation
9%
air
9%
intrusion
8%
evaluation
8%
sensors
8%
aluminum oxides
7%
carbides
6%
cracks
6%
oxidation resistance
6%
room temperature
6%
depletion
5%
lasers
5%
hardness tests
5%
dwell
5%
heat treatment
5%
Engineering & Materials Science
Superalloys
60%
Oxidation
49%
Thermooxidation
35%
Oxides
27%
Austenitic stainless steel
25%
Powders
21%
Fusion reactions
21%
Lasers
20%
Shot peening
18%
Focused ion beams
18%
Fatigue of materials
18%
Fatigue testing
15%
Scaffolds
15%
Grain boundaries
15%
Crack initiation
14%
Characterization (materials science)
13%
Turbines
12%
Nickel
12%
Rails
11%
Hot Temperature
9%
Eddy currents
9%
Microstructure
8%
Heat treatment
8%
Metals
8%
Imaging techniques
7%
Air
7%
Surface treatment
6%
Testing
6%
Sensors
6%
Electrons
6%
Oxidation resistance
6%
Temperature
6%
Carbides
6%
Fick's laws
6%
Mechanical properties
6%
Alumina
5%
Tissue
5%
Lead oxide
5%
Chemistry
Thermooxidation
31%
Oxidation Reaction
26%
Shot Peening
26%
Crack Initiation
23%
Oxide
22%
Turbine
21%
Eddy Current
20%
Grain Boundary
15%
Ion Beam
14%
Alloy
11%
Cubic Space Group
10%
Inductance
10%
Microstructure
8%
Time
8%
Strength
8%
Heat Treatment
8%
Surface
7%
Ambient Reaction Temperature
7%
Microhardness
7%
Amount
6%
Sample Preparation
5%