Engineering & Materials Science
Amorphous films
100%
Carbon films
96%
Amorphous carbon
94%
Microstructure
41%
Mechanical properties
39%
Hot Temperature
29%
Annealing
26%
Vacuum
15%
Coatings
13%
Energy dispersive X ray analysis
12%
Substrates
12%
Raman spectroscopy
11%
Nanostructures
10%
Temperature
10%
Chemical vapor deposition
10%
Laser beams
10%
Argon
9%
Compressive stress
9%
Thermodynamic stability
9%
Transmission electron microscopy
9%
Microhardness
8%
Hysteresis
8%
Methane
8%
Plasmas
8%
Residual stresses
7%
Scanning electron microscopy
6%
Hardness
6%
Silicon
6%
Composite materials
5%
Air
4%
Experiments
3%
Physics & Astronomy
thermal instability
77%
mechanical properties
41%
carbon
41%
microstructure
36%
annealing
13%
vacuum
9%
microhardness
7%
residual stress
7%
methane
7%
coating
7%
temperature
6%
thermal stability
6%
Raman spectroscopy
6%
hardness
6%
argon
5%
hysteresis
5%
bubbles
5%
vapor deposition
5%
electron energy
5%
wafers
5%
laser beams
5%
damage
5%
reflectance
5%
coatings
5%
transmission electron microscopy
5%
scanning electron microscopy
5%
composite materials
4%
air
4%
silicon
4%
x rays
3%
Chemical Compounds
Amorphous Material
42%
Microstructure
41%
Liquid Film
29%
Carbon Atom
28%
Surface
19%
Annealing
18%
Vacuum
12%
Residual Stress
10%
Vapor Deposition Process
9%
Microhardness
8%
Bubble
8%
Hysteresis
7%
Chemical Vapour Deposition
6%
Displacement
6%
Methane
6%
Raman Spectroscopy
5%
Thermal Stability
5%
Transmission Electron Microscopy
5%
Resistance
4%
Nanomaterial
4%
Coating Agent
4%
Scanning Electron Microscopy
4%
Composite Material
3%
Amount
3%