Ignition, combustion, and agglomeration of encapsulated aluminum particles in a composite solid propellant. I. Theoretical study of the ignition and combustion of aluminum with fluorine-containing coatings-Reference-Cited by-同舟云学术

Ignition, combustion, and agglomeration of encapsulated aluminum particles in a composite solid propellant. I. Theoretical study of the ignition and combustion of aluminum with fluorine-containing coatings

Published:2006-09 Issue:5 Volume:42 Page:534-542
ISSN:0010-5082
Container-title:Combustion, Explosion, and Shock Waves
language:en
Short-container-title:Combust Explos Shock Waves

Author:

Yagodnikov D. A.,Andreev E. A.,Vorob’ev V. S.,Glotov O. G.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,Energy Engineering and Power Technology,Fuel Technology,General Chemical Engineering,General Chemistry

Link

http://link.springer.com/content/pdf/10.1007/s10573-006-0085-8.pdf

Reference23 articles.

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2. V. A. Ermakov, A. A. Razdobreev, A. I. Skorik, et al., “Temperature of aluminum particles at the time of ignition and combustion,” Combust., Expl., Shock Waves, 18, No. 2, 256–257 (1982).

3. E. I. Popov, “Effect the degree of oxidation of metals on their ignitability,” in: Prevention of Sudden Ignitions of Powders and Explosions of Gas-Disperse Systems [in Russian], Naukova Dumka (1975), pp. 141–146.

4. L. F. Kozin, A. V. Gorodyskii, and V. A. Sakharenko, “Increasing the reactivity of aluminum to water and its relation with the solid-state transformations of aluminum in the process of alloying with gallium, tin, and indium,” in: Chemical Physics of Combustion and Explosion Processes. Kinetics and Combustion [in Russian], Chernogolovka (1986), pp. 9–13.

5. E. I. Popov, L. Ya. Kashporov, V. M. Mal’tsev, and A. L. Breiter, “Combustion mechanism of aluminum-magnesium alloy particles,” Combust., Expl., Shock Waves, 9, No. 2, 204–208 (1973).

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