Skip to main navigation
Skip to search
Skip to main content
New Jersey Institute of Technology Home
Help & FAQ
Home
Profiles
Research units
Facilities
Federal Grants
Research output
Press/Media
Search by expertise, name or affiliation
On the mechanism of asymmetric aluminum particle combustion
Edward L. Dreizin
Research output
:
Contribution to journal
›
Article
›
peer-review
126
Scopus citations
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'On the mechanism of asymmetric aluminum particle combustion'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Aluminum Particle Combustion
100%
Aluminum Particles
100%
Gas Mixture
100%
Oscillation
50%
Oxygen Transport
50%
Oxide Cap
50%
Combustion
25%
Internal Structure
25%
Surface Structure
25%
Electron Microscopy
25%
Optical Sensor
25%
Monodisperse
25%
Surface Composition
25%
Combustion Experiment
25%
Free-falling Particles
25%
Asymmetric Particles
25%
Combustion Particles
25%
Dissolved Oxygen
25%
Metal Particle Combustion
25%
Asymmetric Combustion
25%
Color Temperature
25%
Gas Atmosphere
25%
Metal Droplet
25%
Rapidly Quenching
25%
Combustion Behavior
25%
Burning Time
25%
Micro-arc
25%
Liquid Aluminum
25%
Gas Environment
25%
Earth and Planetary Sciences
Gas Mixture
100%
Planetary Atmosphere
25%
Experimental Study
25%
Dissolved Oxygen
25%
Arc Generator
25%
Optical Measuring Instrument
25%
Surface Structure
25%
Electron Microscopy
25%
Burning Time
25%
Metal Particle
25%
Engineering
Gas Mixture
100%
Experimental Technique
25%
Illustrates
25%
Diffusive
25%
Internal Structure
25%
Optical Sensors
25%
Color Temperature
25%
Gas Environment
25%
Material Science
Aluminum
100%
Gas Mixture
66%
Oxide Compound
33%
Surface Structure
33%
Electron Microscopy
16%
Chemical Engineering
Dissolved Oxygen
100%