Engineering & Materials Science
High-entropy alloys
100%
Neutron diffraction
35%
Stacking faults
26%
Phase transitions
24%
X ray absorption
20%
Mechanical properties
19%
Neutron scattering
18%
Hardness
18%
Strain hardening
18%
X ray scattering
18%
Ductility
17%
Electron beam melting
17%
Plastic deformation
16%
Electrochemical properties
16%
Refractory materials
15%
Hydrogen embrittlement
14%
Selective laser melting
14%
Hardening
14%
Precipitates
14%
Refractory alloys
13%
Temperature
12%
Atoms
12%
Porosity
11%
Electron beams
11%
X rays
10%
Elastic moduli
9%
Entropy
9%
Martensite
9%
Fatigue of materials
8%
Austenite
5%
Lasers
5%
Electron diffraction
5%
Twinning
5%
Chemistry
Alloy
77%
Entropy
38%
Stacking Fault
32%
Strain Hardening
30%
Face-Centered Cubic Crystal System
27%
Neutron Diffraction
26%
Ductility
24%
Plastic Deformation
21%
Ultra Small Angle Neutron Scattering
21%
Anomalous X-Ray Scattering
20%
Electron Beam Melting
19%
Embrittlement
15%
Refractory
14%
Extended X-Ray Absorption Fine Structure
13%
Porosity
13%
Melting
11%
Resistance
11%
Strain
10%
Electron Beam
10%
Yield Point
9%
Strength
7%
Ambient Reaction Temperature
6%
Grain Size
5%
Hydrogen
5%
Annealing
5%
Physics & Astronomy
entropy
50%
cryogenic temperature
37%
metallic glasses
23%
crystal defects
19%
crystallization
17%
phase transformations
15%
mechanical properties
15%
ductility
15%
stacking fault energy
14%
neutron diffraction
13%
twinning
12%
martensitic transformation
12%
stainless steels
10%
plastic deformation
10%
thermomechanical treatment
10%
slip
9%
retarding
8%
costs
8%
annealing
8%
strain hardening
6%
elongation
6%
routes
5%
textures
5%
nucleation
5%
microstructure
5%
heat measurement
5%
neutron scattering
5%
service life
5%