Engineering & Materials Science
Synchrotrons
100%
X rays
56%
Tomography
50%
Solidification
47%
Neutron diffraction
36%
Dendrites (metallography)
35%
Imaging techniques
29%
Microstructure
26%
High-entropy alloys
25%
Stacking faults
24%
Indentation
21%
Powders
21%
Lorentz force
20%
Fusion reactions
20%
Intermetallics
20%
Alloying
19%
Lasers
19%
Magnetic fields
18%
Cryogenics
17%
Foams
16%
Thermal conductivity
15%
Pore structure
14%
Glass
14%
Plasticity
13%
Twinning
13%
Bioactive glass
13%
Lattice constants
12%
Ductility
12%
Composite materials
12%
Magnetohydrodynamics
12%
Fumes
11%
Direct numerical simulation
10%
Liquids
10%
Biomaterials
10%
Coarsening
10%
Yield stress
10%
Temperature
10%
Scaffolds
10%
Viscous flow
9%
Heat treatment
9%
Mechanical properties
9%
Porosity
9%
Superalloys
8%
Hardness
8%
Crystalline materials
8%
Flow velocity
8%
Thermal gradients
8%
Diffraction
8%
Plastic deformation
8%
Porous materials
8%
Chemistry
Solidification
53%
Alloy
51%
Microstructure
34%
X-Ray
34%
Neutron Diffraction
26%
Flow
20%
Magnetic Field
19%
Yield Point
18%
Alloying
17%
Strain
16%
Cryogenics
16%
Plastic Deformation
16%
Thermal Conductivity
15%
Solute
15%
Foam
15%
Stacking Fault Energy
14%
Strength
14%
Thermoelectricity
14%
Ductility
13%
Volume
12%
Glass
12%
Composite Material
12%
Simulation
11%
Liquid
11%
Pore Structure
11%
Grain Size
11%
Fume
10%
Strain Hardening
10%
Cooling
10%
Creep
10%
Stacking Fault
10%
Magnesium Alloy
10%
Time
9%
Crystalline Texture
9%
Heat Treatment
9%
Force
9%
Intermetallic Compound
9%
Energy
8%
Powder Metallurgy
8%
Dimension
8%
Entropy
8%
Lattice Parameter
8%
Polycrystalline Solid
7%
Biomaterial
7%
Sintering
6%
Displacement
6%
Porosity
6%
Fragmentation
6%
Length
6%
Block Like Crystal
5%
Physics & Astronomy
synchrotrons
45%
neutron diffraction
26%
solidification
25%
stacking fault energy
23%
x rays
20%
microstructure
17%
aluminum alloys
15%
solutes
15%
cryogenic temperature
15%
intermetallics
15%
precipitates
13%
dendrites
13%
magma
12%
steels
12%
entropy
12%
porosity
12%
twinning
11%
mechanical properties
11%
tomography
10%
bricks
10%
ductility
10%
nucleation
9%
alloying
9%
austenitic stainless steels
9%
cryogenics
9%
masks
9%
high speed
9%
porous materials
9%
phase contrast
9%
tensile properties
9%
manufacturing
8%
free convection
8%
molybdenum
8%
foams
8%
magnetohydrodynamics
8%
friction
8%
martensite
8%
beds
8%
stainless steels
7%
neutron scattering
7%
voids
7%
tensile strength
7%
yield strength
6%
fusion
6%
thermal conductivity
6%
crystallization
6%
fragmentation
6%
solid state
6%
extruding
6%
gravitation
6%
