Planar Shock Initiation of Porous Tetryl

Abstract

The plane-wave shock initiation of a large particle size tetryl has been studied at five pressing densities between 1.30 and 1.70 g/cc. The explosive wedge technique was used to observe shock buildup to detonation for a number of initial shock strengths, obtaining shock position data as a function of time. Single-curve buildup was assumed to determine values of the initial shock velocity in the explosive and these were used in the impedance-match solution to compute the initial shock parameters in the explosive. Quantitative expression of the measured time of shock run in terms of the computed shock strength leads to a set of initiation relations characteristic of the test explosive. Comparison of these initiation curves for different densities of tetryl suggests that at least two initiation mechanisms are effective in low-density tetryl. This interpretation is illustrated by discussing the data in terms of two theories of initiation which have appeared in the literature.