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Ignition of aluminum powders by electro-static discharge
Ervin Beloni,
Edward L. Dreizin
Chemical and Materials Engineering
Research output
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Contribution to journal
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Article
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peer-review
24
Scopus citations
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Dive into the research topics of 'Ignition of aluminum powders by electro-static discharge'. Together they form a unique fingerprint.
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Keyphrases
Ignition
100%
Electrostatic Discharge
100%
Burning Time
100%
Aluminum Powder
100%
Al Powder
75%
Particle Size
50%
Agglomeration
50%
Fine Powder
50%
Powder Combustion
50%
Al Particles
50%
Burning Particles
50%
Surface-to-volume Ratio
25%
Particle Size Distribution
25%
Heat Energy
25%
Photodiode
25%
Popular
25%
Agglomerates
25%
Metal Fuel
25%
Fine Particles
25%
Energy Range
25%
Ejection
25%
Energetic Formulation
25%
Metal Powder
25%
Fuel Additive
25%
Joule Heating
25%
Spark Ignition
25%
Powder Samples
25%
Ignition Sensitivity
25%
Joule
25%
Spark Energy
25%
Spark Voltage
25%
Sample Holder
25%
Heating Energy
25%
Aerosol Flame
25%
Minimum Ignition Energy
25%
Joule Heat
25%
Powder Heating
25%
Spark Radius
25%
Powder Characteristics
25%
Struck by
25%
Coarse Powder
25%
Steel Sample
25%
Discharge Energy
25%
Optical Diagnostics
25%
Chemical Engineering
Joule Heating
100%