Microstructural damage of α-Al₂O₃ by high energy density plasma

Engineering

• Nanoparticle 100%
• Surface Erosion 100%
• Thruster 100%
• Flux Density 100%
• Polycrystalline 50%
• Nanomaterial 50%
• Electronic Excitation 50%
• Damage Surface 50%
• Induced Damage 50%
• Al Matrix 50%
• Plasma Damage 50%
• Lattice Constant 50%
• Lattice Parameter 50%
• Melting Point 50%
• Actuator 50%
• Heat Source 50%
• Space Group 50%

Keyphrases

• Aluminum Oxide 100%
• Microstructural Damage 100%
• High-energy-density Plasma 100%
• Impurities 57%
• Surface Erosion 28%
• Plasma-induced Damage 28%
• W-Cu 28%
• Plasma Erosion 28%
• Al2Cu 28%
• Nanoparticles 14%
• Scanning Electron Microscopy 14%
• Electronic Excitation 14%
• Transmission Electron Microscopy 14%
• Al Nanoparticles 14%
• Epitaxial 14%
• Nanodomains 14%
• Lattice Parameter 14%
• Damaged Structures 14%
• Surface Damage 14%
• Surface Microstructure 14%
• Dendrite 14%
• Cu Electrode 14%
• Crack Formation 14%
• Surface Melting 14%
• Al Matrix 14%
• Space Propulsion 14%
• Thruster 14%
• Erosion Mechanism 14%
• Plasma Thruster 14%
• Electron Induced 14%
• Local Heat Source 14%
• Ceramic Insulator 14%
• Surface Quenching 14%
• Rhombohedral Structure 14%
• Cu Particles 14%
• W Electrode 14%

Material Science

• Aluminum Oxide 100%
• High Energy Density 100%
• Surface (Surface Science) 71%
• Nanoparticle 28%
• Scanning Electron Microscopy 14%
• Transmission Electron Microscopy 14%
• Surface Damage 14%
• Lattice Constant 14%
• Nanostructure 14%