Engineering & Materials Science
Superalloys
85%
Rhenium
79%
Single crystals
76%
Centrifugal casting
73%
Nickel
70%
Turbomachine blades
62%
Turbines
50%
Grain boundaries
42%
Investment casting
38%
Computational geometry
34%
Casting
30%
Defects
29%
Dissolution
26%
Solidification
25%
Heat treatment
24%
Chemical analysis
18%
Surface defects
15%
Experiments
14%
Stucco
14%
Refractory materials
13%
Yttrium oxide
12%
Airfoils
12%
Molten materials
12%
Aircraft plants
12%
Gravitation
11%
Metals
10%
Macros
10%
Liquid metals
9%
Geometry
8%
Heat transfer
8%
Titanium
8%
Melting
8%
Fillers
7%
Dendrites (metallography)
7%
Aluminum oxide
7%
Alloying elements
7%
Air
6%
Refractory metals
6%
Transmission electron microscopy
6%
Electron microscopy
6%
Microstructure
5%
Fluids
5%
Zirconium
5%
Fluidity
5%
Power plants
5%
Temperature
5%
Physics & Astronomy
turbine blades
95%
heat resistant alloys
91%
nickel
71%
investment casting
67%
rhenium
63%
single crystals
42%
grain boundaries
29%
dissolving
23%
computational geometry
21%
centrifugal casting
20%
surface defects
15%
casts
15%
heat treatment
15%
defects
15%
zirconium oxides
12%
matrices
11%
heat
11%
drop tests
10%
dendrites
8%
interactions
8%
metals
8%
fillers
8%
electron microscopy
6%
metal shells
6%
solidification
6%
microstructure
5%
creep properties
5%
products
5%
refractory metals
5%
Chemistry
Turbine
100%
Superalloys
81%
Casting
72%
Single Crystalline Solid
50%
Grain Boundary
43%
Casting Process
40%
Heat Treatment
31%
Alloy
25%
Electron Microscopy
21%
Dissolution
18%
Surface
17%
Solidification
15%
Surface Defect
15%
Sintering
13%
Centrifugal Force
13%
Refractory
13%
Microstructure
12%
Base Material
12%
Heat Transfer
10%
Time
9%
Sintering Aid
7%
Metal
7%
Filler
7%
Amount
7%
Alloying
6%
Flow
6%
Refractory Metal
5%
Diffusion
5%
Creep
5%