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Keyphrases
Uranium Oxide Fuel
100%
Three-dimensional Characterization
100%
Composition Effect
100%
Serial Sectioning
100%
Microstructure Effect
100%
Mechanical Behavior
100%
Energy Dispersive X-ray Spectroscopy
66%
Microstructure
66%
Electron Backscatter Diffraction
50%
High-fidelity Model
33%
Ion Beam Polishing
33%
Submicron Resolution
33%
Ion Polishing
33%
Mechanical Polishing
33%
Nuclear Fuel
33%
Polishing System
33%
Mechanical Properties
33%
Porosity
33%
Oxides
33%
Three-dimensional (3D)
33%
Three-dimensional Map
16%
Radiotoxic
16%
Hardness Test
16%
Deformation Mode
16%
Fuel Model
16%
Uranium Oxide
16%
Thermomechanical Behavior
16%
Three-dimensional Microstructure
16%
Fuel Performance
16%
Depleted Uranium
16%
Minor Addition
16%
Fuel Surrogates
16%
Nuclear Reactor
16%
Fuel Cycle
16%
Map Interaction
16%
Microstructure Reconstruction
16%
Fuel Development
16%
Evolution Properties
16%
Map Composition
16%
Dopant Effect
16%
Area-based
16%
Oxide Fuel
16%
Nuclear Materials
16%
UO2 Fuel
16%
Current Constraint
16%
Grain Boundary Geometry
16%
Fuel Reliability
16%
Serial Sectioning Technique
16%
Grain number
16%
Fuel Behavior
16%
Nuclear Waste Disposal
16%
Model Interaction
16%
Microstructure Evolution
16%
Experimental Characterization
16%
Compositional Heterogeneity
16%
Irradiation
16%
Further Development
16%
Microstructural Effects
16%
Microstructure Characterization
16%
Failure Mode
16%
Triple Junction
16%
Microstructure Composition
16%
Thermomechanical Properties
16%
Development Program
16%
Grain Size
16%
Infrastructure Support
16%
Structural Heterogeneity
16%
Microstructural
16%
Main Components
16%
Heat Treatment
16%
Electron Microscope
16%
Waste Reduction
16%
Creep Testing
16%
Physical Mechanism
16%
Three Dimensional Model
16%
Focused Ion Beam
16%
Material Science
Mechanical Property
100%
Uranium Oxide
100%
Uranium Dioxide
100%
Composition Effect
100%
Phase Composition
83%
Electron Backscatter Diffraction
50%
Oxide Compound
50%
Polishing
33%
Nuclear Fuel
33%
Heat Treatment
16%
Creep
16%
Thermomechanical Property
16%
Grain Size
16%
Doping (Additives)
16%
Microstructure Characterization
16%
Radioactive Waste
16%
Grain Boundary
16%
Focused Ion Beam
16%
Engineering
Phase Composition
100%
Mechanical Property
100%
Mechanical Polishing
22%
Porosity
22%
Nuclear Fuel
22%
Model Fidelity
22%
Hardness Testing
11%
Fuel Model
11%
Nuclear Material
11%
Fine Detail
11%
Fuel Cycle
11%
Heat Treatment
11%
Deformation Mode
11%
Depleted Uranium
11%
Three-Dimensional Models
11%
Nuclear Reactor
11%
Dopants
11%
Experimental Characterization
11%
Focused Ion Beam
11%
Creep Testing
11%
Microstructure Evolution
11%
Main Component
11%
Failure Mode
11%