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Proceedings Paper

Aluminum metal combustion in water revealed by high-speed microphotography
Author(s): William C. Tao; Alan M. Frank; Rochelle E. Clements; Joseph E. Shepherd
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Paper Abstract

In high explosives designed for air blast cratering fragmentation and underwater applications metallic additives chemically react with the oxidizer and are used to tailor the rate of energy delivery by the expansion medium. Although the specific mechanism for sustained metal combustion in the dense detonation medium remains in question it is generally accepted that the fragmentation of the molten particle and disruption of its oxide layer are a necessity. In this study we use high speed microphotography to examine the ignition and combustion of small 25-76 jim diameter and 23 mm long aluminum wires rapidly heated by a capacitor discharge system in water. Streak and framing photographs detailing the combustion phenomenon and the fragmentation of the molten aluminum were obtained over periods of 100 nsec - 100 j. tsec with a spatial resolution of 2 . im. The wire temperature was determined as a function of time by integrating the circuit equation together with the energy equation for an adiabatic wire and incorporating known aluminum electrical resistivity and temperature functions of energy density in the integration. In order for the aluminum to sustain a rapid chemical reaction with the water we found that the wire temperature has to be raised above the melting temperature of aluminum oxide. The triggering mechanism for this rapid reaction appears to be the fragmentation of the molten aluminum from the collapse of a vapor blanket about

Paper Details

Date Published: 1 January 1991
PDF: 11 pages
Proc. SPIE 1346, Ultrahigh- and High-Speed Photography, Videography, Photonics, and Velocimetry '90, (1 January 1991); doi: 10.1117/12.23359
Show Author Affiliations
William C. Tao, Lawrence Livermore National Lab. (United States)
Alan M. Frank, Lawrence Livermore National Lab. (United States)
Rochelle E. Clements, Lawrence Livermore National Lab. (United States)
Joseph E. Shepherd, Rensselaer Polytechnic Institute (United States)


Published in SPIE Proceedings Vol. 1346:
Ultrahigh- and High-Speed Photography, Videography, Photonics, and Velocimetry '90
Paul A. Jaanimagi; Barry T. Neyer; Larry L. Shaw, Editor(s)

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