Material Science
Oxide Compound
100%
Nanoclusters
50%
Density
42%
Fracture Toughness
34%
Grain Boundary
32%
Atom Probe
27%
Phase Composition
27%
Tomography
26%
Transmission Electron Microscopy
24%
Creep
22%
Nanoparticle
21%
Grain Size
21%
Ferritic/Martensitic Steel
20%
Neutron Irradiation
14%
Ferritic Steel
14%
Surface (Surface Science)
14%
Yield Stress
14%
Vanadium Alloys
11%
Tensile Property
11%
Heat Treatment
11%
Creep Property
10%
Strain Rate
10%
Mechanical Alloying
10%
Building Material
10%
X-Ray Diffraction
10%
Lithium
9%
Oxidation Reaction
9%
Volume Fraction
9%
Annealing
8%
Scanning Electron Microscopy
8%
Nucleation
8%
Oxide Particle
8%
Thermal Creep
7%
Titanate
7%
Fracture Behavior
7%
Bismuth
7%
Silicon
7%
Irradiation Creep
7%
Coarsening
7%
Film
7%
Nickel Alloy
7%
Oxidation Resistance
6%
Aluminum Oxide
6%
Tungsten
6%
Intermetallics
6%
Schottky Diode
6%
Ion Bombardment
6%
Alloy
6%
Zirconia
5%
Ultimate Tensile Strength
5%
Engineering
Oxide Dispersion Strengthened
61%
Nanoclusters
33%
Fracture Strength
29%
Room Temperature
19%
Ferritic/Martensitic Steel
17%
Nanoparticle
16%
Yield Point
16%
Number Density
14%
Phase Composition
14%
Tensile Property
13%
Tensile Test
13%
Ferritic Stainless Steel
12%
Temperature Strength
12%
Creep
11%
Atom Probe Tomography
11%
Fits and Tolerances
11%
Heat Treatment
10%
Tensiles
10%
Structural Materials
10%
Fusion Energy
9%
Temperature Range
9%
Radiation Effect
9%
Strengthened Alloy
9%
Ray Diffraction
9%
Mechanical Alloying
8%
Elevated Temperature
8%
Fracture Behavior
7%
Deformation Mechanism
7%
Base Alloy
7%
Temperature Dependence
7%
Strain Rate
7%
Welds
7%
Iron
7%
Irradiation Creep
6%
Energy Application
6%
Dynamic Strain Aging
6%
Tensile Deformation
6%
Nanoscale
6%
Low-Temperature
6%
Nuclear Reactor
6%
High Resolution
6%
Tensile Specimen
6%
Dislocation Loop
5%
Strengthening Mechanism
5%
Alloy
5%
Thermal Creep
5%
Thermomechanical Treatment
5%
Fracture Surface
5%
Stress Relaxation
5%
Fast Reactor
5%