Keyphrases
Tungsten
100%
Short Fiber Reinforced
100%
Ductile Behavior
100%
Pseudo-ductile
100%
Powder Metallurgical
100%
Mechanical Properties
50%
Ductility
50%
Fusion Reactor
50%
First Wall
50%
Fully Dense
50%
Wall Material
25%
Thermal Load
25%
Extreme Environments
25%
Resilient
25%
Mechanical Strength
25%
Thermal Properties
25%
Grain Growth
25%
Composite Materials
25%
Sintering Process
25%
High Melting Point
25%
Mechanical Load
25%
Short Fiber
25%
Embrittlement
25%
Diffusion Barrier
25%
Thermal Fatigue
25%
Fuel Management
25%
Carbon Impurity
25%
Toughening Mechanism
25%
Intrinsic Brittleness
25%
Extrinsic Toughening
25%
Neutron Irradiation
25%
Hydrogen Retention
25%
W Fiber
25%
Material Considerations
25%
Metallurgical Route
25%
Transient Heat Loading
25%
Composite Mechanism
25%
Overall Safety
25%
Mechanical Property Retention
25%
Engineering
Short Fiber
100%
Sintering
100%
Fusion Reactor
66%
Thermal Load
66%
Test Result
33%
Transients
33%
Mechanical Load
33%
Toughening
33%
High Melting Point
33%
Embrittlement
33%
Sintering Process
33%
Thermal Fatigue
33%
Diffusion Barrier
33%
Composite Material
33%
Brittleness
33%
Material Science
Tungsten
100%
Sintering
100%
Composite Material
25%
Thermal Load
25%
Thermal Property
25%
Composite Material
25%
Heating Load
25%
Embrittlement
25%
Brittleness
25%
Neutron Irradiation
25%
Strength of Materials
25%
Thermal Fatigue
25%