Michelle L Pantoya
Michelle L Pantoya
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Laser ignition of nanocomposite thermites
JJ Granier, ML Pantoya
Combustion and Flame 138 (4), 373-383, 2004
Combustion behavior of highly energetic thermites: Nano versus micron composites
ML Pantoya, JJ Granier
Propellants, Explosives, Pyrotechnics: An International Journal Dealing with …, 2005
Combustion velocities and propagation mechanisms of metastable interstitial composites
BS Bockmon, ML Pantoya, SF Son, BW Asay, JT Mang
Journal of Applied Physics 98 (6), 064903, 2005
Combustion wave speeds of nanocomposite Al/Fe2O3: the effects of Fe2O3 particle synthesis technique
KB Plantier, ML Pantoya, AE Gash
Combustion and Flame 140 (4), 299-309, 2005
Melt dispersion mechanism for fast reaction of nanothermites
VI Levitas, BW Asay, SF Son, M Pantoya
Applied Physics Letters 89 (7), 071909, 2006
Effect of Al particle size on the thermal degradation of Al/Teflon mixtures
DT Osborne, ML Pantoya
Combustion Science and Technology 179 (8), 1467-1480, 2007
Fast reactions with nano-and micrometer aluminum: A study on oxidation versus fluorination
KW Watson, ML Pantoya, VI Levitas
Combustion and Flame 155 (4), 619-634, 2008
Dependence of size and size distribution on reactivity of aluminum nanoparticles in reactions with oxygen and MoO3
J Sun, ML Pantoya, SL Simon
Thermochimica Acta 444 (2), 117-127, 2006
Mechanochemical mechanism for fast reaction of metastable intermolecular composites based on dispersion of liquid metal
VI Levitas, BW Asay, SF Son, M Pantoya
Journal of Applied Physics 101 (8), 083524, 2007
Melt dispersion versus diffusive oxidation mechanism for aluminum nanoparticles: Critical experiments and controlling parameters
VI Levitas, ML Pantoya, B Dikici
Applied Physics Letters 92 (1), 011921, 2008
The influence of alumina passivation on nano-Al/Teflon reactions
ML Pantoya, SW Dean
Thermochimica acta 493 (1-2), 109-110, 2009
Impact ignition of nano and micron composite energetic materials
EM Hunt, S Malcolm, ML Pantoya, F Davis
International Journal of Impact Engineering 36 (6), 842-846, 2009
Ignition dynamics and activation energies of metallic thermites: From nano-to micron-scale particulate composites
EM Hunt, ML Pantoya
Journal of applied physics 98 (3), 034909, 2005
Activating aluminum reactivity with fluoropolymer coatings for improved energetic composite combustion
J McCollum, ML Pantoya, ST Iacono
ACS applied materials & interfaces 7 (33), 18742-18749, 2015
Tuning energetic material reactivity using surface functionalization of aluminum fuels
KS Kappagantula, C Farley, ML Pantoya, J Horn
The Journal of Physical Chemistry C 116 (46), 24469-24475, 2012
The aluminium and iodine pentoxide reaction for the destruction of spore forming bacteria
BR Clark, ML Pantoya
Physical Chemistry Chemical Physics 12 (39), 12653-12657, 2010
Effect of the alumina shell on the melting temperature depression for aluminum nanoparticles
VI Levitas, ML Pantoya, G Chauhan, I Rivero
The Journal of Physical Chemistry C 113 (32), 14088-14096, 2009
Effect of bulk density on reaction propagation in nanothermites and micron thermites
ML Pantoya, VI Levitas, JJ Granier, JB Henderson
Journal of Propulsion and Power 25 (2), 465-470, 2009
Nano-scale reactants in the self-propagating high-temperature synthesis of nickel aluminide
EM Hunt, KB Plantier, ML Pantoya
Acta Materialia 52 (11), 3183-3191, 2004
Reaction kinetics of nanometric aluminum and iodine pentoxide
C Farley, M Pantoya
Journal of thermal analysis and calorimetry 102 (2), 609-613, 2010
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