Material Science
Composite Material
100%
Silicon Carbide
68%
Neutron Irradiation
55%
Tungsten
26%
Ferritic/Martensitic Steel
20%
Ion Bombardment
17%
Surface (Surface Science)
15%
Density
14%
Matrix Composite
14%
Transmission Electron Microscopy
12%
Thermal Conductivity
12%
Building Material
12%
Shear Strength
11%
Fracture Toughness
10%
Chemical Vapor Deposition
10%
Tensile Property
9%
Ultimate Tensile Strength
9%
Microstructural Evolution
9%
Tritium
9%
Scanning Electron Microscopy
8%
Coolant
7%
Ceramic Matrix Composites
7%
Heat Treatment
7%
Indentation
6%
Corrosion
6%
Flexural Strength
6%
Radiation Damage
6%
Ferritic Steel
6%
Oxidation Reaction
5%
Elastic Moduli
5%
Point Defect
5%
Irradiation Creep
5%
Ceramic Composite
5%
Nanopowder
5%
Grain Boundary
5%
Debonding
5%
Phase Composition
5%
Engineering
Ferritic/Martensitic Steel
18%
Microstructural Evolution
18%
Nuclear Reactor
17%
Thermal Conductivity
16%
Fracture Strength
14%
Tensile Property
13%
Elevated Temperature
12%
Fusion Reactor
12%
Chemical Vapor Deposition
12%
Indentation
11%
Joints (Structural Components)
11%
Bending Strength
11%
Pyrolysis
11%
Heat Flux
10%
Radiation Effect
10%
Transients
10%
Low-Temperature
10%
Shear Strength
10%
Structural Materials
9%
Irradiation Creep
9%
Tensiles
9%
Dislocation Loop
9%
Light Water Reactors
8%
Irradiated Material
8%
Oak Ridge
8%
Japan
8%
Fracture Behavior
8%
Composite Material
8%
Room Temperature
8%
Sintering
7%
Fusion Application
7%
Porosity
7%
Nuclear Fusion
7%
Matrix Interface
6%
Interlayer
6%
Ultimate Tensile Strength
6%
Ferritic Stainless Steel
6%
Modulus of Elasticity
6%
Nanopowder
6%
Fusion Energy
6%
Shear Property
6%
Proportional Limit
6%
Test Specimen
6%
Temperature Range
6%
Debonding
5%
Tritium
5%
Fits and Tolerances
5%
Anisotropic
5%
Structural Application
5%
Thermal Diffusivity
5%