Keyphrases
Ignition
100%
Nanocomposite Materials
100%
Reactive Nanocomposites
100%
Heterogeneous Process
100%
Metals Ignition
100%
High Heating Rate
50%
Molybdenum Trioxide
50%
Performance Optimization
25%
Explosives
25%
Ion Diffusion
25%
Propellant
25%
Technical Approach
25%
Oxidizer
25%
Heat Release
25%
Specific Applications
25%
Energetic Materials
25%
Micron-sized Powder
25%
Energetic Formulation
25%
Fully Dense
25%
Nanocomposite Powder
25%
Thermite
25%
Reaction Rate
25%
Thermal Analysis
25%
Structural Refinement
25%
Enthalpy of Combustion
25%
Ignition Mechanism
25%
Combustion Temperature
25%
Aluminum Oxide
25%
Heating Rate
25%
Burn Rate
25%
Polymorph
25%
Heterogeneous Reaction
25%
Ignition Process
25%
Low Heating Rate
25%
Metalloids
25%
Similar Material
25%
Excess Al
25%
Scanning Calorimetry
25%
Metallic Fuel
25%
MoO2
25%
Component Ratio
25%
Multiple Steps
25%
Reduction-oxidation Reactions
25%
Calorimetry Measurement
25%
Quantitative Kinetics
25%
Kinetic Description
25%
Material Science
Nanocomposites
100%
Powder
66%
Aluminum
33%
Explosive
33%
Data Processing
33%
Al2O3
33%
Thermal Analysis
33%
Calorimetry
33%
Polymorphism
33%
Engineering
Ignition
100%
Nanocomposite
100%
Heating Rate
57%
Energetics
28%
Oxidizer
14%
Technical Approach
14%
Heat Release
14%
Oxidation-Reduction Reaction
14%
Heterogeneous Reaction
14%
Performed Measurement
14%
Main Advantage
14%
Chemical Engineering
Heating Rate
100%
Enthalpy
25%
Calorimetry
25%
Metalloids
25%