Acceleration of plates using non-conventional explosives heavily-loaded with inert materials

The detonation behavior of high explosives containing quantities of dense additives has been previously investigated with the observation that such systems depart dramatically from the approximately "gamma law" behavior typical of conventional explosives due to momentum transfer and therma...

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Bibliographic Details
Published in:Journal of physics. Conference series 2014-01, Vol.500 (18), p.182027-6
Main Authors: Loiseau, J, Petel, O E, Huneault, J, Serge, M, Frost, D L, Higgins, A J
Format: Article
Language:English
Subjects:
Acceleration
Additives
Aluminum
Density
Detonation
Explosive plating
Explosives
Granular materials
Momentum transfer
Nitromethane
Packed beds
Physics
Plates
Terminal velocity
Terminals
Thermalization (energy absorption)
Velocity
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Summary:The detonation behavior of high explosives containing quantities of dense additives has been previously investigated with the observation that such systems depart dramatically from the approximately "gamma law" behavior typical of conventional explosives due to momentum transfer and thermalization between particles and detonation products. However, the influence of this non-ideal detonation behavior on the divergence speed of plates has been less thoroughly studied and existing literature suggests that the effect of dense additives cannot be explained solely through the straightforward application of the Gurney method with energy and density averaging of the explosive. In the current study, the acceleration history and terminal velocity of aluminum flyers launched by packed beds of granular material saturated by amine-sensitized nitromethane is reported. It was observed that terminal flyer velocity scales primarily with the ratio of flyer mass to mass of the explosive component; a fundamental feature of the Gurney method. Velocity decrement from the addition of particles was only 20%-30% compared to the resulting velocity if propelled by an equivalent quantity of neat explosive.
ISSN:1742-6596
1742-6588
1742-6596
DOI:10.1088/1742-6596/500/18/182027