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Oxidation, ignition, and combustion of Al·I
2
composite powders
Shasha Zhang
, Carlo Badiola
,
Mirko Schoenitz
,
Edward L. Dreizin
Chemical and Materials Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
42
Scopus citations
Overview
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Dive into the research topics of 'Oxidation, ignition, and combustion of Al·I
2
composite powders'. Together they form a unique fingerprint.
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Keyphrases
Aerosolized
60%
Al Powder
20%
Aluminum Matrix
20%
Biocidal Activity
20%
Burning Time
20%
Chemical Effect
20%
Combustion
100%
Combustion Characteristics
40%
Combustion Experiment
20%
Combustion Rate
20%
Composite Materials
20%
Composite Powder
100%
Constant Volume
20%
Cryogenic Milling
20%
Electrically Heated
20%
Energetic Formulation
20%
Explosion Test
20%
Flame Temperature
20%
Fuel Additive
20%
Halogens
40%
Heating Rate
20%
High Energy Density
20%
Ignition
100%
Ignition Characteristics
20%
Ignition Temperature
20%
Ignition Test
20%
Iodine
60%
Iodine Concentration
40%
Iodine Release
20%
Laser Ignition
20%
Low Temperature
20%
Microorganisms
20%
Powder Combustion
20%
Pure Al
60%
Pure Aluminum
20%
Thermal Effect
20%
Thermogravimetric Analysis
20%
Total Pressure
20%
Engineering
Al Powder
20%
Aluminum Matrix
20%
Burn Time
20%
Chemical Effect
20%
Composite Material
20%
Composite Powder
100%
Constant Volume
20%
Energetics
20%
Energy Density
20%
Flame Temperature
20%
Ignition
100%
Ignition Temperature
20%
Individual Particle
40%
Low-Temperature
20%
Nanocomposite
20%
Prepared Material
20%
Pure Aluminum
20%
Rate of Heating
20%
Thermal Effect
20%
Material Science
Aluminum
33%
Composite Material
11%
Energy Density
11%
Fuel Additive
11%
Nanocomposites
11%
Oxidation Reaction
100%
Powder
100%
Thermogravimetric Analysis
11%
Chemical Engineering
Cryogenics
100%
Heating Rate
100%