Engineering & Materials Science
Superconducting materials
100%
Flux pinning
30%
Temperature
27%
Magnetic fields
19%
Magnetization
18%
Carbon
16%
Microstructure
15%
Oxygen reduction reaction
15%
Infiltration
15%
Plasmas
14%
Nanoparticles
13%
Coatings
13%
Metals
13%
Powders
13%
Liquids
12%
Fatigue of materials
12%
Crystals
12%
Magnets
12%
Corrosion
12%
Steam
12%
Soldering alloys
11%
Oxygen
11%
Doping (additives)
11%
Thin films
10%
Corrosion resistance
10%
Boron
10%
Magnesium alloys
9%
Substrates
8%
Single crystals
8%
Undercooling
8%
Transmission electron microscopy
8%
Sodium chloride
7%
Crystalline materials
7%
Sintering
7%
Fabrication
7%
Grain boundaries
7%
Scanning electron microscopy
7%
Fatigue crack propagation
7%
Fluxes
7%
Silver
7%
Solid state reactions
6%
Composite films
6%
Seed
6%
Thermal fatigue
6%
Electrocatalysts
6%
Creep
6%
Scanning
6%
Crystallization
6%
Electrons
6%
Shape memory effect
6%
Atomic force microscopy
6%
Silver nanoparticles
6%
Chemical analysis
6%
Mechanical properties
5%
Magnetic properties
5%
Solid solutions
5%
High temperature superconductors
5%
Oxides
5%
X ray diffraction
5%
Current density
5%
Hot Temperature
5%
Catalysts
5%
Nitrogen
5%
Recovery
5%
Ions
5%
Cracks
5%
Solidification
5%
Titanium
5%
Contact resistance
5%
Platinum
5%
Magnetic flux
5%
Cooling
5%
Chemical Compounds
Superconductor
88%
Alloy
28%
Current Density
28%
Magnetic Field
23%
Levitation
19%
Microstructure
18%
Magnetization
15%
Liquid Film
13%
Crack Propagation
12%
Dioxygen
11%
Liquid
11%
Surface
11%
Magnesium Alloy
11%
Solder
10%
Coating Agent
10%
Force
9%
Plasma
8%
Corrosion Resistance
8%
Creep
8%
Nanoparticle
8%
Sintering
8%
Carbon Atom
8%
Reduction
8%
Grain Boundary
8%
Amorphous Material
7%
Application
7%
Corrosion
6%
Boron Atom
6%
Magnetic Flux
6%
Composite Material
6%
Amount
6%
Thermal Fatigue
6%
Cooling
6%
Strain
6%
Metal
6%
Solidification
5%
Thermoelectricity
5%
Single Crystalline Solid
5%
Polarization
5%
Contact Resistance
5%
Lanthanoid Atom
5%
Martensitic Transformation
5%
Shape Memory Alloys
5%
Size Reduction
5%
Physics & Astronomy
critical current
27%
current density
21%
flux pinning
20%
levitation
16%
infiltration
16%
microstructure
13%
performance
11%
temperature
11%
magnetization
11%
magnets
9%
fatigue life
9%
steam
8%
carbon
8%
solders
8%
seeds
8%
nanoparticles
8%
magnetic fields
7%
corrosion
7%
scanning electron microscopy
7%
liquid oxygen
6%
trapped magnetic fields
6%
oxygen
6%
boron
6%
sintering
6%
crack propagation
6%
supercooling
5%
liquid phases
5%
coatings
5%
fabrication
5%
balls
5%
crystals
5%
metals
5%
air
5%
YBCO superconductors
5%
cooling
5%
trapping
5%
permanent magnets
5%
hydroxides
5%
optimization
5%