Engineering & Materials Science
Stainless steel
100%
Titanium alloys
79%
Deep drawing
62%
Copper
57%
Coatings
56%
Cold rolling mills
55%
Nonferrous metals
53%
Stamping
53%
Metals
48%
Patents and inventions
45%
Surface properties
44%
Brittle fracture
43%
Surface treatment
40%
Annealing
38%
Hardening
35%
Plastic deformation
34%
Aluminum alloys
33%
Residual stresses
33%
Rolling mills
30%
Salts
29%
Economics
24%
Resource allocation
21%
Air
21%
Water
20%
Metal coatings
18%
Engines
16%
Cold rolling
15%
Steel sheet
13%
Flanges
13%
Plasticity
11%
Auger electron spectroscopy
9%
Fused salts
9%
Pipe
9%
Temperature
9%
Zinc coatings
9%
Zinc alloys
9%
Sputtering
8%
Zinc
6%
Steel
6%
Alloying
6%
Molten materials
6%
Doping (additives)
6%
Ions
5%
Atoms
5%
Substitution reactions
5%
Titanium
5%
Physics & Astronomy
stamping
63%
research and development
43%
titanium alloys
40%
copper
36%
aluminum alloys
35%
surface layers
33%
coverings
33%
products
28%
salts
27%
coatings
25%
metals
18%
zinc alloys
17%
metal coatings
17%
scoring
16%
zinc coatings
9%
molten salts
8%
copper alloys
7%
fixtures
7%
cohesion
6%
schedules
6%
Auger spectroscopy
6%
electron spectroscopy
6%
chlorides
5%
friction
5%
temperature
5%
inhomogeneity
5%
chromium
5%
sputtering
5%
Chemical Compounds
Titanium Alloy
70%
Aluminium Alloy
42%
Surface
36%
Coating Agent
34%
Metal
30%
Resistance
24%
Diffusion
23%
Cohesion
23%
Jet
20%
Substitution Reaction
12%
Chloride
11%
Purity
9%
Metallic Bond
7%
Acid
6%
Application
6%
Auger Electron Spectroscopy
5%
Sputtering
5%
Molten Salt
5%
