Keyphrases
Burning Plasma
100%
Composite Alloy
100%
Plasma-material Interface
100%
Tunability
100%
Tungsten
41%
Refractory Metals
25%
Molybdenum
16%
Steady State
16%
Liquid Metal
16%
Plasma-facing Components
16%
Material Design
16%
Radiation Tolerance
16%
High Temperature
16%
Interface Material
16%
Self-healing Materials
8%
Translational Development
8%
Self-healing
8%
Chemical Sputtering
8%
Physical Sputtering
8%
Heat Flux
8%
Material System
8%
Lithium
8%
Surface Erosion
8%
Plasma-induced
8%
Porous Structure
8%
Extreme Environments
8%
Boron
8%
Hierarchical Structure
8%
Magnetically Confined Fusion Plasma
8%
Performance Issues
8%
Edge Plasma
8%
Embrittlement
8%
Intrinsic Properties
8%
Dynamic Material Properties
8%
Grain Boundary
8%
In Situ Characterization
8%
Brittle Fracture
8%
High Heat Flux
8%
Surface Topography
8%
Adaptive Materials
8%
Plasma Thus
8%
Low-Z Materials
8%
Graphite
8%
Tungsten Impurity
8%
Irradiation
8%
Material Properties
8%
Beryllium
8%
Hydrogen Retention
8%
Zeff
8%
Surface Interface
8%
Material Performance
8%
Ultrathin Films
8%
Material Interfaces
8%
Nanotechnology
8%
Blister
8%
Process-structure-property Relationship
8%
Traditional Materials
8%
Plasma-material Interactions
8%
Surface Diffusion
8%
Tungsten-based Materials
8%
In Situ Performance
8%
Tritium Retention
8%
Base Metals
8%
Erosion Reduction
8%
High Thermal Conductivity
8%
Early Career
8%
Interface Properties
8%
Morphological Evolution
8%
Impurity Emission
8%
Plasma Edge
8%
High Melting Point
8%
Self-adaptive Materials
8%
Edge Conditions
8%
Fusion Plasma
8%
Thermomechanical Properties
8%
Radiation Resistance
8%
Interface Research
8%
Reactor
8%
Magnetic Fusion Device
8%
Surface Segregation
8%
Core Plasma
8%
Hydrogen Irradiation
8%
Plasma Operation
8%
Metal Systems
8%
Helium Irradiation
8%
Design Approach
8%
Ion Reflection
8%
Ion-induced
8%
Nanostructures
8%
Modal
8%
Self-healing Property
8%
Low Melting Point Metal
8%
Surface Interaction
8%
Well-defined
8%
Atomic Concentration
8%
Stimulants
8%
Refractory Alloys
8%
Plasma Exposure
8%
Tungsten Surface
8%
Fusion Reactor
8%
Processing Scheme
8%
Thick Substrate
8%
Engineering
Material Interface
100%
Nanocomposite
100%
Fits and Tolerances
23%
Fusion Plasmas
15%
Low Melting Point Metal
7%
Material Thickness
7%
Surface Topography
7%
Material Performance
7%
Tritium
7%
Material System
7%
Mesoscale
7%
Plasma-Materials Interaction
7%
Embrittlement
7%
Porous Structure
7%
Extreme Condition
7%
Process Structure
7%
Healing Property
7%
High Melting Point
7%
Nuclear Reactor
7%
High Thermal Conductivity
7%
Thick Substrate
7%
Intrinsic Property
7%
Limitations
7%
Particle Surface
7%
Surface Erosion
7%
Brittle Fracture
7%
Material Science
Interface (Material)
100%
Tungsten
66%
Refractory Metal
25%
Liquid Metal
16%
Materials Property
16%
Materials Design
16%
Molybdenum
16%
Refractory Alloys
8%
Thermal Conductivity
8%
Beryllium
8%
Embrittlement
8%
Lithium
8%
Ultrathin Film
8%
Brittle Fracture
8%
Boron
8%
Grain Boundary
8%
Thermomechanical Property
8%
Interface Property
8%
Surface Charge
8%