1. Stability of Chapman–Jouguet detonations for a stiffened-gas model of condensed-phase explosives.
- Author
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MARK SHORT, JOHN B. BDZIL, and IANA I. ANGUELOVA
- Subjects
STABILITY (Mechanics) ,DETONATION waves ,EQUATIONS ,CONDENSED matter ,EXPLOSIVES ,MACH number ,PRESSURE ,SPEED of sound - Abstract
The analysis of the linear stability of a planar Chapman–Jouguet detonation wave is reformulated for an arbitrary caloric (incomplete) equation of state in an attempt to better represent the stability properties of detonations in condensed-phase explosives. Calculations are performed on a ‘stiffened-gas’ equation of state which allows us to prescribe a finite detonation Mach number while simultaneously allowing for a detonation shock pressure that is substantially larger than the ambient pressure. We show that the effect of increasing the ambient sound speed in the material, for a given detonation speed, has a stabilizing effect on the detonation. We also show that the presence of the slow reaction stage, a feature of detonations in certain types of energetic materials, where the detonation structure is characterized by a fast reaction stage behind the detonation shock followed by a slow reaction stage, tends to have a destabilizing effect. [ABSTRACT FROM AUTHOR]
- Published
- 2006
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