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Combustion of micron-sized particles of titanium and zirconium
Carlo Badiola,
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
91
Scopus citations
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Dive into the research topics of 'Combustion of micron-sized particles of titanium and zirconium'. Together they form a unique fingerprint.
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Keyphrases
Combustion
100%
Laser Beams
100%
Rutile
100%
Zirconia
100%
Combustion Temperature
100%
Burning Time
100%
Micron Particles
100%
Particle Size
66%
CO2 Laser
66%
Large Particle
33%
Light Scattering
33%
Low Power
33%
In Situ
33%
Ignition
33%
Light Pulse
33%
Emission Spectrum
33%
Coarse Particles
33%
Particle Combustion
33%
Adiabatic Flame Temperature
33%
Particle Emission
33%
Micro-explosion
33%
Particle Size Range
33%
Ti Particles
33%
Auxiliary Laser
33%
Engineering
Combustion Temperature
100%
Sized Particle
100%
Laser Beam
100%
Burn Time
100%
Size Range
66%
Ignition
33%
Emission Spectra
33%
Coarse Particle
33%
Scattered Light
33%
Particle Emission
33%
Adiabatic Flame Temperature
33%
Material Science
Carbon Dioxide
100%
Zirconium
100%
Titanium
100%
Data Processing
50%
Chemical Engineering
Auxiliaries
100%