The role of tangential velocity in explosive initiation by fragment impact

Received: 01 Aug 2022, Revised: 05 Aug 2022, Accepted: 20 Dec 2022, Available online: 21 Dec 2022, Version of Record: 21 Dec 2022

Vitaly Leus a, Roy Ceder a, Valentin Ognev a, Meir Mayseless b
a
RAFAEL Ballistic Center, P.O. Box 2250, Haifa, Israel
b
Faculty of Engineering Sciences, Ben-Gurion University of the Negev, Beer-Sheva, 84105, Israel

Abstract


An initiation study is presented in which we examine the effect of the normal and the tangential velocity components of a fragment that impacts a covered and a bare Comp-B explosive. The study is based on calibrated numerical Lagrangian simulations using the LS-Dyna hydrocode. A special procedure was developed to present the estimated initiation point and the shock wave transition into detonation for various impact angles. The influence of the fragment strength and the steel cover thickness on the detonation threshold were also examined. The velocity threshold results are presented and used to modify the Jacobs-Roslund initiation model.

Keywords
High explosive initiation
Lee-tarver
Jacobs-roslund
Fragment



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“Authors state no conflict of interest”


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