Keyphrases
Thermal Conductivity
97%
Thermophysical Properties
65%
Graphite
32%
Thermal Diffusivity
29%
Mixed Oxide Fuel
27%
High Burnup
27%
High Temperature
26%
Specific Heat
24%
Dispersion Fuel
18%
Specific Heat Capacity
15%
Temperature Effect
12%
High Temperature Measurement
11%
Microstructural Characteristics
11%
Spectral Emissivity
11%
Thermal Properties
11%
Irradiated nuclear Fuel
11%
Characterization Techniques
10%
Microstructural Characterization
10%
Condensed Matter
9%
Polynomial Approximation
9%
Gradient Approximation
9%
Thermogram
9%
Material Volume
9%
Yttrium Hydride
9%
Post-irradiation Examination
9%
Thermophysical Property Characterization
9%
Mechanistic Approach
9%
Examination Results
9%
Metallic nuclear Fuel
9%
Two Dimensional Images
9%
Image Application
9%
Work-based
9%
Failure Mode Effect
9%
Microreactor
9%
New numerical Scheme
9%
Simultaneous Evaluation
9%
Inconel
9%
Mechanical Properties Testing
9%
Gas Bubble Superlattice
9%
Electron Microscopy Studies
9%
Three Dimensional Reconstruction
9%
Neutron Irradiation
9%
Thermoreflectance
9%
Mo Dispersion
9%
U-Mo
9%
Nuclear Fuel
9%
Three-dimensional (3D)
9%
Thermal Conductivity Correlation
9%
Reflectance Measurement
9%
Viral
9%
Engineering
Thermal Conductivity
100%
Thermal Diffusivity
34%
Burnup
30%
Mixed Oxide Fuels
27%
Nuclear Fuel
21%
Inverse Method
14%
Gas Bubble
13%
Specific Heat Capacity
13%
Porosity
12%
Property Characterization
11%
Melting Point
11%
Microstructural Feature
11%
Fission Product
11%
Emissivity
10%
Code Performance
10%
Numerical Method
9%
Cross Section
9%
Dimensional Image
9%
Material Volume
9%
Light Water Reactors
9%
Metrics
9%
Failure Modes and Effects Analysis
9%
United States
9%
Reflectance Measurement
9%
Microreactor
9%
Microstructural Evolution
9%
Initial Assessment
9%
Three-Dimensional Reconstruction
9%
Confidence Interval
9%
Two Dimensional
9%
Stainless Steel
9%
Nuclear Reactor
9%
Fitting Parameter
9%
Nuclear Material
9%
Multiscale
9%
Good Agreement
8%
Superlattice
7%
Heat Capacity
6%
Reference Value
6%
Filler Particle
6%
Central Region
5%
Material Science
Thermal Conductivity
93%
Thermophysical Property
67%
Uranium Dioxide
24%
Diffusivity
23%
Oxide Compound
23%
Nuclear Fuel
16%
Fission Product
12%
Thermal Property
12%
Aluminum
10%
Metal Casting
9%
Transmission Electron Microscopy
9%
Mechanical Seal
9%
Hydride
9%
Yttrium
9%
Percolation
9%
Anisotropy
9%
Silicon
9%
Surface (Surface Science)
9%
Physical Property
9%
Covalent Bond
9%
Single Crystal
9%
Materials Property
6%
Solid State Physics
6%
Sodium
5%
Thermal Expansion
5%
