Engineering & Materials Science
Superalloys
100%
Rhenium
96%
Nickel
58%
Nickel alloys
58%
Stacking faults
56%
Atoms
53%
X ray absorption spectroscopy
39%
Precipitates
35%
X ray absorption
34%
Phase boundaries
32%
Density functional theory
29%
Chemical analysis
28%
Transition metals
27%
Plastic flow
21%
Energy dispersive spectroscopy
20%
Titanium
19%
Tomography
19%
Creep
18%
Volume fraction
17%
Characterization (materials science)
17%
Femtosecond lasers
15%
Laser ablation
14%
Defects
13%
Single crystals
12%
Binary images
11%
Composite materials
11%
Imaging techniques
11%
Dimers
9%
Electrons
9%
Binary alloys
9%
High temperature properties
9%
Electron microscopes
9%
Alloying
9%
Temperature
9%
Creep resistance
8%
Image processing
7%
Scanning
7%
Computer systems
6%
Sampling
6%
Vacancies
6%
Microstructure
6%
Nuclear explosions
6%
X-Ray Emission Spectrometry
6%
Phase diagrams
6%
Ising model
6%
Throughput
6%
Hardening
6%
Yield stress
5%
Strengthening (metal)
5%
Lattice constants
5%
Chemistry
Alloy
77%
Nickel Alloy
64%
Solute
49%
Superalloys
43%
Stacking Fault Energy
42%
Interstitial
41%
Creep
41%
Superlattice
40%
Diffusion
36%
Monte Carlo Method
34%
Stacking Fault
33%
Antiphase Boundary
33%
Extended X-Ray Absorption Fine Structure
23%
X Ray Absorption Spectroscopy
21%
Energy-Dispersive Spectroscopy
20%
Anisotropy
18%
Permeability
15%
Hexagonal Space Group
15%
Transition Element
15%
Energy
14%
Density Functional Theory
13%
Diffusion Coefficient
12%
Flow
12%
Probe
12%
Volume
11%
Strength
11%
Resistance
10%
Composite Material
9%
Alloying
9%
Phase Diagrams
9%
Metal
8%
Entropy
8%
Single Crystalline Solid
7%
Ising Model
7%
Molecular Cluster
7%
Yield Point
7%
Spectroscopy
6%
Solvent
6%
Plastic Deformation
6%
Oxidation Kinetics
5%
Multicomponent Reaction
5%
Quantum Mechanics
5%
Scanning Transmission Electron Microscopy
5%
Solidification
5%
Physics & Astronomy
heat resistant alloys
78%
stacking fault energy
72%
rhenium compounds
42%
precipitates
40%
solutes
35%
temperature dependence
31%
nickel
31%
kinetics
29%
rhenium
28%
density functional theory
27%
design optimization
24%
jet engines
23%
nickel alloys
23%
gas turbines
21%
atoms
20%
simulation
18%
enthalpy
17%
binary alloys
17%
lattice parameters
17%
shearing
17%
interstitials
17%
Ising model
16%
thermodynamic properties
16%
diffusion coefficient
13%
temperature
13%
anisotropy
12%
engineering
12%
harmonics
11%
matrices
10%
performance
10%
metals
10%
mechanical properties
9%
plastic properties
9%
transition metals
8%
magnetic moments
8%
energy
7%
affinity
7%
predictions
6%
diffusivity
6%
surface layers
5%
x ray absorption
5%