Engineering & Materials Science
Hypersonic aerodynamics
81%
Silicon carbide
76%
Plasmas
65%
Substrates
50%
Temperature
28%
Chlorine
15%
Rutherford backscattering spectroscopy
11%
Elastic moduli
10%
Amorphous films
10%
Hardness
10%
Vapor deposition
10%
Spectrometry
8%
X ray diffraction analysis
8%
Supersonic flow
8%
Bond strength (materials)
7%
Nanoindentation
7%
Molybdenum
7%
Crystalline materials
6%
Nucleation
6%
Deposits
6%
Adhesion
5%
Vacuum
5%
Nozzles
5%
Scanning electron microscopy
5%
Chemical analysis
4%
Mechanical properties
4%
Hot Temperature
3%
Experiments
2%
Mathematics
Silicon
100%
Plasma
77%
Young's Modulus
17%
Adhesion
15%
Hardness
11%
Nanoindentation
11%
Scanning Electron Microscopy
10%
X-ray Diffraction
9%
Grain Size
9%
Backscattering
8%
Nucleation
7%
Nozzle
7%
Mechanical Properties
7%
Supersonic Flow
7%
Vacuum
6%
Decrease
5%
Vary
5%
Evaluate
4%
Experiment
4%
Demonstrate
3%
Physics & Astronomy
hypersonics
85%
silicon carbides
68%
temperature
21%
chlorine
12%
adhesion
9%
modulus of elasticity
9%
hardness
9%
thermal plasmas
7%
supersonic flow
7%
nanoindentation
6%
molybdenum
5%
microhardness
5%
nozzles
5%
deposits
5%
backscattering
5%
examination
4%
vapor deposition
4%
grain size
4%
nucleation
4%
mechanical properties
3%
scanning electron microscopy
3%
vacuum
3%
diffraction
3%
spectroscopy
3%
x rays
2%
Chemical Compounds
Silicon Carbide
79%
Plasma
44%
Liquid Film
34%
Young's Modulus
13%
Chlorine
11%
Thermal Plasma
9%
Amorphous Film
8%
Rutherford Backscattering Spectroscopy
8%
Vapor Deposition Process
7%
Nozzle
7%
Grain Size
6%
Nucleation
5%
Vacuum
5%
Flow
4%
Strength
4%
Scanning Electron Microscopy
3%
Amount
2%