Material Science
Neutron Irradiation
100%
Silicon Carbide
67%
Stainless Steel
45%
Fracture Toughness
39%
Yield Stress
38%
Composite Material
37%
Austenitic Stainless Steel
37%
Density
37%
Ferritic/Martensitic Steel
33%
Tungsten
31%
Work Hardening
31%
Transmission Electron Microscopy
30%
Oxide Compound
25%
Molybdenum
24%
Surface (Surface Science)
21%
Deformation Microstructures
20%
Ion Bombardment
18%
Tensile Property
18%
Grain Boundary
17%
Deformation Mechanism
17%
Microstructural Evolution
16%
Embrittlement
16%
Creep
15%
Radiation Damage
14%
Ultimate Tensile Strength
14%
Phase Composition
14%
Martensite
12%
Coolant
12%
Nanoindentation
12%
Crystal Defect
11%
Thermal Aging
11%
Plastic Deformation
11%
Scanning Electron Microscopy
10%
Strain Rate
10%
Three Dimensional Printing
10%
Corrosion
10%
Electrical Resistivity
10%
Tensile Testing
10%
Fracture Behavior
9%
Mechanical Testing
9%
Proton Irradiation
9%
Yttrium
9%
Diffusivity
8%
Zircaloy
8%
Coated Fuel Particles
8%
Residual Stress
8%
Electron Backscatter Diffraction
8%
Annealing
8%
X-Ray Diffraction
7%
Positron Annihilation Spectroscopy
7%
X-Ray Computed Tomography
7%
Oxidation Reaction
7%
Creep Property
7%
Carbide
7%
Vanadium
7%
Iron Ion
7%
Metal
7%
Raman Spectroscopy
7%
Sintering
7%
Grain Size
7%
Single Crystal
7%
Atom Probe
6%
Irradiation Creep
6%
Nucleation
6%
Chemical Vapor Deposition
6%
Matrix Composite
6%
Thermal Conductivity
6%
Duplex Stainless Steel
6%
Inconel 718
6%
Nanocrystalline
6%
Tomography
6%
Amorphization
6%
Scanning Transmission Electron Microscopy
6%
Nanoclusters
5%
Hydride
5%
Elastic Moduli
5%
Austenite
5%
Silicon
5%
Building Material
5%
Materials Property
5%
Microstructural Analysis
5%
Shear Strength
5%
Electron Microscopy
5%
Stress Relaxation
5%
Desorption
5%
Tantalum
5%
Thermomechanical Processing
5%
Mechanical Property
5%
Tensile Loads
5%
Tantalum Alloys
5%
Engineering
Stainless Steel
50%
Fracture Strength
42%
Low-Temperature
38%
Yield Point
31%
Austenitic Stainless Steel
31%
Strain Hardening
29%
Ferritic/Martensitic Steel
29%
Room Temperature
26%
Tensiles
24%
Deformation Mechanism
22%
Nuclear Reactor
22%
Dislocation Loop
22%
Creep
20%
Light Water Reactors
18%
Joints (Structural Components)
18%
Temperature Range
18%
Thermal Conductivity
17%
Embrittlement
17%
Radiation Effect
17%
Irradiated Material
16%
Oxide Dispersion Strengthened
15%
Tensile Property
15%
Channelling
15%
Test Temperature
14%
Heat Flux
14%
Tensile Test
14%
Temperature Dependence
14%
Elevated Temperature
13%
Tensile Testing
13%
Finite Element Analysis
13%
Face-Centered Cubic
13%
Hardening Behavior
12%
Chemical Vapor Deposition
12%
Induced Defect
12%
Nuclear Fuel
12%
Silicon Carbide Material
11%
Tensile Deformation
11%
Fracture Behavior
11%
Irradiation Creep
11%
Test Method
11%
Neutron Source
11%
Body-Centered Cubic
11%
Deformation Mode
11%
Polycrystalline
10%
Ray Diffraction
10%
Loss of Coolant Accidents
10%
Microstructural Evolution
10%
Fusion Reactor
9%
Strain Hardening Rate
9%
Fracture Property
9%
Ultimate Tensile Strength
9%
Additive Manufacturing
9%
Neutron Spectra
9%
Test Material
9%
Charpy
9%
Nanoscale
9%
Hexagonal Close Packed
9%
Transients
8%
Cladding Material
8%
Anisotropic
8%
Number Density
8%
Hardening Model
8%
Phase Composition
8%
Plastic Deformation
8%
Polycrystalline Metal
8%
Thermal Diffusivity
8%
Stress Relaxation
8%
Dose Level
8%
Strain Rate
8%
Mechanical Property
8%
Stress State
7%
Oak Ridge
7%
Induced Cracking
7%
Swelling Behavior
7%
Mechanical Interaction
7%
Modulus of Elasticity
7%
Grade Silicon
7%
Energy Release
7%
Applied Stress
7%
Strain Localization
6%
Resolved Shear Stress
6%
Duct
6%
Localized Deformation
6%
Outer Surface
6%
Shear Strength
6%
Sintering
6%
Microstructure Evolution
6%
Plasma Facing Component
6%
Steel Part
6%
Stored Energy
6%
Helium Bubble
6%
Induced Stress
6%
Heat Affected Zone
6%
Debonding
6%
Pressurization
6%
Failure Behavior
6%
Fits and Tolerances
5%
High Temperature Applications
5%
Good Agreement
5%
Iron
5%