Keyphrases
Intermetallics
100%
Dealloying
100%
Porous Metal
100%
Liquid Metal Dealloying
100%
Grain Boundary
66%
Bicontinuous
66%
High Temperature
33%
Microstructural Evolution
33%
Intermetallic Matrix Composites
33%
Porosity
33%
High Surface Area
33%
Mechanical Integrity
33%
Material Design Strategies
33%
Further Processing
33%
Subtractive Method
33%
Porosity Formation
33%
Individual Grains
33%
Niobium
33%
Porous Materials
33%
Molten Metal
33%
Mechanical Robustness
33%
NbTi
33%
Tantalum
33%
Impregnation
33%
Silicide
33%
Selective Dissolution
33%
Polycrystalline Alloy
33%
Niobium Silicide
33%
Tantalum Silicide
33%
Metal Bath
33%
Self-supported Arrays
33%
Tati
33%
Multiphase Nanocomposite
33%
Boundary Separation
33%
Material Science
Dealloying
100%
Liquid Metal
100%
Intermetallics
100%
Nanocomposite
100%
Silicide
50%
Grain Boundary
33%
Tantalum
33%
Niobium
33%
Microstructural Evolution
16%
Materials Design
16%
Composite Material
16%
Silicon
16%
Lead Alloy
16%