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Volumn 158, Issue 10, 2011, Pages 2064-2070
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Combustion characteristics of micron-sized aluminum particles in oxygenated environments
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Author keywords
Aluminum combustion; Burn rate; Metal combustion; Optical pyrometry; Particle combustion dynamics
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Indexed keywords
ALUMINUM COMBUSTION;
ALUMINUM PARTICLE;
ALUMINUM POWDERS;
BURN RATES;
BURNING PARTICLES;
COMBUSTION CHARACTERISTICS;
COMBUSTION MODEL;
EMISSION DECAYS;
EMISSION INTENSITY;
EMISSION PEAKS;
EXPERIMENTAL DATA;
FLAME TEMPERATURES;
LOW-POWER LASERS;
METAL COMBUSTION;
MICRON-SIZED PARTICLES;
MULTIPLE PARTICLES;
OPTICAL EMISSIONS;
OPTICAL PYROMETRY;
OXYGEN CONCENTRATIONS;
OXYGENATED ENVIRONMENTS;
PARTICLE DIAMETERS;
PARTICLE TEMPERATURE;
SCATTERED LIGHT;
STEADY STATE;
ALUMINUM;
ALUMINUM POWDER METALLURGY;
ATMOSPHERIC PRESSURE;
CARBON DIOXIDE;
EXPERIMENTS;
GAS MIXTURES;
GASES;
LASER BEAMS;
LIGHT SCATTERING;
LIGHT TRANSMISSION;
OXYGEN;
PARTICLE SIZE;
POWDER METALS;
PYROMETERS;
PYROMETRY;
COMBUSTION;
ALUMINUM;
CARBON DIOXIDE;
ARTICLE;
COMBUSTION;
ENVIRONMENT;
LASER;
LIGHT SCATTERING;
OPTICAL PYROMETRY;
OXYGEN CONCENTRATION;
OXYGENATION;
PARTICLE SIZE;
PRIORITY JOURNAL;
TEMPERATURE;
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EID: 80052353929
PISSN: 00102180
EISSN: 15562921
Source Type: Journal
DOI: 10.1016/j.combustflame.2011.03.007 Document Type: Article |
Times cited : (112)
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References (19)
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