Engineering & Materials Science
Coatings
100%
Nanoindentation
82%
Mechanical properties
70%
Multilayers
57%
Elastic moduli
56%
Nitriding
56%
Nanocomposites
47%
Polypropylenes
45%
Aluminum oxide
42%
Plasmas
41%
Characterization (materials science)
39%
Creep
38%
Temperature
35%
Carbon
33%
Current density
32%
Glass transition
30%
Sputtering
28%
Fused silica
24%
Scratch resistance
22%
Cracks
20%
Superconducting transition temperature
19%
Stainless steel
19%
Hardening
17%
Hardness
16%
Substrates
16%
Wear resistance
13%
Corrosion resistance
13%
Nitrides
13%
Electric currents
12%
Cathodes
11%
Supersaturation
10%
MEMS
10%
Friction
10%
Focused ion beams
10%
Nitrogen
10%
Iron
10%
Mass transfer
9%
Furnaces
9%
Scanning electron microscopy
9%
Monolayers
9%
Fractography
9%
Weathering
9%
Engineering technology
8%
Chemical properties
8%
Strain rate
8%
Air
8%
Decomposition
8%
Amorphous carbon
7%
Austenite
7%
Microscopes
7%
Macros
6%
Microstructure
6%
Magnetron sputtering
6%
Composite materials
6%
X ray photoelectron spectroscopy
6%
Surface morphology
5%
Wear of materials
5%
Sodium chloride
5%
Physics & Astronomy
coatings
89%
mechanical properties
72%
nanoindentation
68%
modulus of elasticity
63%
nitriding
52%
polypropylene
45%
ambient temperature
43%
nanocomposites
38%
platforms
37%
spallation
32%
carbon
29%
cracks
28%
glass transition temperature
27%
temperature
26%
low temperature tests
25%
characterization
24%
current density
23%
silicon dioxide
22%
fractography
20%
impact loads
20%
sputtering
17%
wear resistance
16%
test equipment
15%
hardness
15%
time constant
14%
coefficient of friction
13%
strain rate
12%
sliding
12%
balls
12%
electric current
11%
floating
11%
microelectromechanical systems
10%
mesh
10%
hardening
10%
nitrides
10%
curves
10%
furnaces
10%
mass transfer
10%
deflection
9%
cathodes
8%
direct current
8%
impact velocity
8%
glass
8%
elastic properties
8%
decomposition
8%
footprints
8%
room temperature
8%
nitrogen
8%
air
7%
iron
7%
scanning electron microscopy
7%
laminates
6%
composite materials
6%
ion beams
5%
microscopes
5%
steels
5%
microstructure
5%
Chemistry
Coating Agent
79%
Creep Behavior
67%
Young's Modulus
52%
Multilayer
46%
Poly(propylene)
37%
Glass Transition Temperature
37%
Resistance
32%
Sputtering
32%
Alloy
31%
Nanocomposite
29%
Wear
27%
Plasma
27%
Creep
27%
Current Density
24%
Glass Transition
23%
Fractography
23%
Carbon Atom
20%
Amorphous Material
18%
Resonance
17%
Surface
17%
Friction Coefficient
16%
Strain
15%
Instrumentation
14%
Nitride
14%
Current
14%
Corrosion Resistance
13%
Mass Transfer
12%
Cathode
10%
Drop
9%
Decomposition
9%
Nitrogen
8%
Weathering
8%
Supersaturation
8%
Ambient Reaction Temperature
8%
Ion Beam
8%
Time
8%
Microstructure
6%
Velocity
6%
Application
5%
Magnetron Sputtering
5%
Purity
5%
Monolayer
5%
Composite Material
5%
Face-Centered Cubic Crystal System
5%