Atomic Scale Insights into the First Reaction Stages Prior to Al/CuO Nanothermite Ignition: Influence of Porosity

Keyphrases

• Al Diffusion 16%
• Al Metal 16%
• Al-CuO 100%
• Al-Zn-Mg-Cu 16%
• Al2O3 Layer 16%
• Alumina Layer 50%
• Alumina Surface 16%
• Aluminate 16%
• Aluminum Oxide 16%
• Amorphous Al2O3 16%
• Atomic Scale 100%
• Chemical Evolution 16%
• Copper(II) Oxide 100%
• Free Oxygen 16%
• Fully Dense 16%
• Growth Kinetics 16%
• High Temperature 16%
• Ignition 100%
• Nanopore 16%
• Nanothermite 100%
• O2 Diffusion 16%
• Oxidizer 16%
• Oxygen Molecule 16%
• Oxygen Pressure 16%
• Porosity 100%
• Pressure Drop 16%
• Reaction Stages 100%
• Reactive Alumina 16%
• ReaxFF Molecular Dynamics 16%
• Structural Evolution 16%
• Thermite Reaction 16%

Material Science

• Al2O3 20%
• Aluminum Oxide 100%
• Amorphous Material 20%
• Nanopore 20%