Modeling the effects of aluminum and ammonium perchlorate addition on the detonation of the high explosives C_4H_8O_8N_8 (HMX) and C_3H_6O_6N_6(RDX)

Creators: Baek, Donghyeon; Kim, Bohoon; Yoh, Jack J.

Abstract

Metalized high explosives effectively tailor the explosion impulse at lowered detonation pressures of common high performance explosives such as C_3H_6O_6N_6 (RDX) and C_4H_8O_8N_8 (HMX). The presence of aluminum (Al) with and without ammonium perchlorate (AP) allows the subsequent burning for longer and sustained reactions of enhanced blast explosives. The modeling of reaction rate laws for three explosives with varied amounts of Al, AP, RDX, and HMX is reported. The model validation included the rate stick test for understanding the explosive reaction of the three samples and the large-scale gap test for determining their ignition sensitivity. The experimental results confirmed the accuracy of the model in simulating the shock sensitivity and the size effects before detonation failure. The effect of enhanced blast of these explosives in the presence of Al and AP is also reported.

Additional Information

© 2018 Published by AIP Publishing. Received 17 September 2018; accepted 15 November 2018; published online 4 December 2018. This study was carried out with the support of Agency for Defense Development and National Research Foundation of Korea (No. 2017R1A6A3A11031277) contracted through IAAT at Seoul National University. The authors are grateful to Dr. J. Park of ADD for providing the experimental data.

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