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The presence of gas phase species in micro- and nano-aluminum combustion
Patrick Lynch
, Giovanni Fiore
,
Herman Krier
,
Nick Glumac
Mechanical Science and Engineering
Research output
:
Chapter in Book/Report/Conference proceeding
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Conference contribution
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Keyphrases
Nano-aluminum
100%
Micro-nano
100%
Micro-aluminum
100%
Gas Phase
100%
Aluminum Combustion
100%
Al Vapor
100%
Combustion
66%
Nanoparticle Combustion
50%
Aluminum Monoxide
50%
Nanoparticles
33%
Melt Dispersion Mechanism
33%
High Energy
16%
Oxides
16%
Absorption Measurement
16%
Oxidation Mechanism
16%
Aluminum Nanoparticles
16%
Mechanical Stress
16%
Inert Environment
16%
Absorption Spectroscopy
16%
Alloy Clusters
16%
Rapid Heating
16%
Shock Tube
16%
Gas Phase Component
16%
Micron-sized Aluminum
16%
Nano-submicron
16%
Diffusion Limited Oxidation
16%
Equilibrium Partial Pressure
16%
Competing Theories
16%
Engineering
Nanoparticle
100%
Gas-Phase
100%
Absorption Measurement
16%
Rapid Heating
16%
Diffusive
16%
Mechanical Stress
16%
Observables
16%
Partial Pressure
16%
Phase Component
16%
Ground State
16%
Physics
Nanoparticle
100%
Vapor Phase
100%
Absorption Spectroscopy
16%
Mechanical Stress
16%
Shock Tubes
16%
Ground State
16%
Chemistry
Aluminum
100%
Nanoparticle
66%
melt
22%
Ground State
11%
Oxidation Reaction
11%
Absorption Spectroscopy
11%
Mechanical Stress
11%
Partial Pressure
11%
Shock Tubes
11%
Material Science
Aluminum
100%
Nanoparticle
66%
Oxide Compound
11%
Absorption Spectroscopy
11%
Mechanical Stress
11%
Surface (Surface Science)
11%
Chemical Engineering
Nanoparticle
100%