Self-assembled porous metal-intermetallic nanocomposites via liquid metal dealloying

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%