Engineering & Materials Science
Solid oxide fuel cells (SOFC)
61%
Gases
48%
Temperature
46%
Microstructure
44%
Magnesium alloys
42%
Aluminum alloys
42%
Strain rate
33%
Sputtering
29%
Laminated composites
27%
Ion bombardment
26%
Extrusion
26%
Cavitation
26%
Carbon steel
25%
Oxidation
24%
Metals
24%
Formability
22%
Mechanical properties
22%
Oxides
20%
Superplasticity
19%
Elongation
19%
Composite materials
18%
Annealing
18%
Coatings
18%
Aluminum sheet
17%
Plastic flow
16%
Thin films
16%
Lubrication
15%
Plasmas
15%
Pressurization
15%
Vanadium
15%
X ray diffraction
14%
Heat treatment
13%
Refining
13%
Crystal microstructure
13%
Hot pressing
13%
Ions
13%
Electrons
13%
Air
13%
Finite element method
13%
Scanning electron microscopy
12%
Diffusion bonding
12%
Ice
12%
Yarn
12%
Brass
12%
Textiles
12%
Flow batteries
12%
Transmission electron microscopy
11%
Hot working
11%
Cathodes
11%
Vacuum
11%
Chemical Compounds
Alloy
100%
Magnesium Alloy
46%
Aluminium Alloy
44%
Microstructure
39%
Strain
34%
Gas
31%
Extrusion
27%
Flow
25%
Cavitation
22%
Superplasticity
22%
Composite Material
18%
Simulation
17%
Metal
17%
Strength
15%
Annealing
15%
Pressure
14%
Lubrication
14%
Ambient Reaction Temperature
14%
Coating Agent
13%
Heat Treatment
13%
Strain Hardening
13%
Liquid Film
12%
Industry
12%
Resistance
11%
Plate Like Crystal
11%
Diffusion
11%
Protective
11%
Residual Stress
10%
Surface
10%
Oxide
10%
Grain Growth
10%
Time
10%
Environment
10%
Surface Roughness
8%
Oxidation Reaction
8%
Thermooxidation
8%
Electrical Resistance
7%
Conductivity
7%
Cathode
6%
Magnetron Sputtering
6%
Rolling Process
6%
Lagrangian
6%
Grain Size
6%
Application
6%
Cast Alloys
6%
Volume
6%
Vacuum Arc
6%
Vacuum
6%
Glass
5%
Ductility
5%
Physics & Astronomy
magnesium alloys
29%
bombardment
23%
superplastic forming
21%
aluminum alloys
19%
sputtering
17%
microstructure
16%
strain rate
16%
mechanical properties
15%
elongation
14%
lubrication
13%
coatings
12%
ice
12%
solid oxide fuel cells
12%
concavity
12%
high temperature air
11%
ions
11%
gases
11%
superplasticity
11%
refining
11%
carbon steels
9%
troughs
9%
cavitation flow
9%
notches
9%
light emission
9%
tensile tests
8%
membranes
8%
metals
8%
vanadium
8%
thin films
8%
oxidation
8%
annealing
8%
electron probes
8%
temperature
8%
profiles
8%
cavities
7%
x rays
7%
composite materials
7%
scanning electron microscopy
7%
cathodes
7%
oxides
7%
recycling
7%
gas pressure
6%
ductile-brittle transition
6%
room temperature
6%
diffraction
6%
solid state
6%
projectiles
6%
water
6%
domes
6%
metal sheets
6%
