Engineering & Materials Science
Titanium alloys
100%
Drilling
85%
Aluminum alloys
77%
Hot isostatic pressing
75%
Aircraft manufacture
53%
Machining
47%
Powders
41%
Inert gas welding
41%
Computer aided manufacturing
40%
Brayton cycle
39%
Sheet metal
38%
Carbon fiber reinforced plastics
38%
Metals
38%
Texturing
37%
Selective laser melting
37%
Compressed air
34%
Polytetrafluoroethylenes
33%
Metal forming
33%
Fatigue of materials
32%
Tungsten
32%
Wear of materials
31%
Residual stresses
30%
Geometry
30%
Finite element method
30%
Tensile properties
30%
Injection molding
29%
Constitutive models
29%
Aluminum
28%
Palladium
26%
Characterization (materials science)
25%
Titanium
25%
Oxides
25%
Analytical models
25%
Compaction
25%
Rotors
24%
Computer aided design
24%
Welding
23%
Turbines
23%
Composite materials
23%
Microstructure
19%
Carbide tools
19%
Powder metals
18%
Silver oxides
17%
Scanning electron microscopy
16%
Staphylococcus aureus
15%
Diamonds
14%
Titanium oxides
14%
Carbides
14%
Deburring
14%
Design of experiments
13%
Physics & Astronomy
polytetrafluoroethylene
36%
drilling
34%
fiber composites
34%
carbon fibers
31%
integrity
31%
electromagnetism
21%
aluminum
20%
characterization
16%
torque
13%
carbon fiber reinforced plastics
13%
cones
12%
tail rotors
7%
textures
7%
factorials
6%
plastics
6%
simulation
6%
reinforcing fibers
6%
bulging
6%
helicopters
5%
temporal distribution
5%
thrust
5%
geometry
5%
abrasion
5%
entry
5%
metal sheets
5%
Chemistry
Poly(tetrafluoroethylene)
30%
Magnetic Pressure
29%
Ceramic
22%
Liquid Film
19%
Surface
18%
Simulation
18%
Wear
18%
Palladium
15%
Vanadium Oxide
11%
Bearing
11%
Titanium Oxide
10%
Oxide
10%
Microhardness
10%
Surface Analysis
10%
Strain
10%
Application
9%
Pressure
8%
Transmission Electron Microscopy
6%
Time-of-Flight Secondary Ion Mass Spectrometry
5%
Scanning Electron Microscopy
5%
Abrasion
5%
Time
5%