Keyphrases
Aluminum Oxide
100%
Liquid-solid
100%
Oxidizing Environment
100%
Aluminum Combustion
100%
Continuum Model
50%
Reaction Rate
50%
Physical Chemistry
50%
High Energy
50%
Ignition
50%
Nano-aluminum
50%
Thermal Transport
50%
Phonons
50%
Equilibration
50%
Atomistic Simulation
50%
Non-equilibrium
50%
Well-defined
50%
Modeling Approach
50%
Mass Fraction
50%
Stress Temperature
50%
Mass Transport Rate
50%
Chemical Changes
50%
Gas Concentration
50%
Liquid Aluminum
50%
Phase Change
50%
Continuum Modeling
50%
Atomic Radii
50%
Equilibrium Formulation
50%
Pressure Stress
50%
Molecular Components
50%
Alumina Layer
50%
Six-component
50%
Solid-gas
50%
Solid Aluminum
50%
Complete Equation of State
50%
Combustion Theory
50%
Combustion Regime
50%
Stress Fraction
50%
Molecular Mixtures
50%
Multi-component Combustion
50%
Aluminum Flake
50%
Engineering
Aluminum Oxide
100%
Gibbs Free Energy
100%
Continuum Model
33%
Mass Transfer
33%
Atomistic Simulation
33%
Nonequilibrium
33%
Equilibrate
33%
Equilibration
33%
Mass Fraction
33%
Ignition
33%
Equation of State
33%
Pressure Stress
33%
Physics
Phonon
100%
Equations of State
100%
Phase Change
100%
Continuum Modeling
100%
Chemistry
Aluminum
100%
Aluminum Oxide
75%
Physical Chemistry
25%
Phonon
25%
Nonequilibrium
25%
Equation of State
25%
Chemical Reaction
25%
Mass Transfer
25%
Atomistic Simulation
25%
Phase Change
25%
Material Science
Aluminum
100%
Aluminum Oxide
75%