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Simulation of blast waves with tailored explosive charges

Published online by Cambridge University Press:  20 April 2006

M. Sanai ,
H. E. Lindberg  and
J. D. Colton
M. Sanai
Affiliation:
SRI International, Menlo Park, California 94025
H. E. Lindberg
Affiliation:
SRI International, Menlo Park, California 94025 Present address: Aptek, Inc., Mountain View, CA 94043.
J. D. Colton
Affiliation:
SRI International, Menlo Park, California 94025
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Abstract

We have developed a compact and cost-effective shock tube to simulate the static and dynamic pressures of blast waves. The shock tube is open at both ends and is driven by high explosives distributed over a finite length of the tube near one end. The overall charge length is determined by the simulation time of interest, and the charge-density distribution is tailored to produce the pressure-waveform shape desired. For the shock tube to simulate a typical blast wave, the charge density must be highest at the charge front (closest to the test section) and gradually reduced towards the back. The resulting shock tube is an order of magnitude shorter than a conventional dynamic airblast simulator (DABS) in which concentrated explosives are used to drive the shock.

Tailored charges designed using this method were built and tested in a simulation development programme sponsored by the U.S. Defense Nuclear Agency (DNA). The pressures measured for several charge distributions agreed very well with SRI's PUFF hydrocode computations and demonstrated the feasibility of the compact simulator under realistic test conditions.

Type
Research Article
Information
Journal of Fluid Mechanics , Volume 158 , September 1985 , pp. 137 - 152
Copyright
© 1985 Cambridge University Press

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References

Cowperthwaite, M. & Zwisler W. H. 1973 TIGER program documentation. STI Publ. 2106.
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Sanai M. 1985 Development of a compact dynamic airblast simulator (DABS) for proof tests of MX shelter models. Final Rep. SRI Project PYU-1596 (to appear).
Seaman, L. & Curran D. R. 1978 SRI PUFF 8 computer program for one-dimensional stress wave propagation. Final Rep. SRI Project PYU-6802.