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The EFP Formation and Penetration Capability of Double-Layer Shaped Charge with Wave Shaper

Yakun Liu, Jianping Yin, Zhijun Wang, Xuepeng Zhang, Guangjian Bi

2020Materials24 citationsDOIOpen Access PDF

Abstract

Detonation waves will bypass a wave shaper and propagate in the form of a horn wave in shaped charge. Horn waves can reduce the incidence angle of a detonation wave on a liner surface and collide with each other at the charge axis to form overdriven detonation. Detection electronic components of small-caliber terminal sensitive projectile that are limited by space are often placed inside a wave shaper, which will cause the wave shaper to no longer be uniform and dense, and weaken the ability to adjust detonation waves. In this article, we design a double-layer shaped charge (DLSC) with a high-detonation-velocity explosive in the outer layer and low-detonation-velocity explosive in the inner layer. Numerical and experimental simulation are combined to compare and analyze the forming process and penetration performance of explosively formed projectile (EFP) in DLSC and ordinary shaped charge (OSC). The results show that, compared with OSC, DLSC can also adjust and optimize the shape of the detonation wave when the wave shaper performance is poor. DLSC can obtain long rod EFPs with a large length-diameter ratio, which greatly improves the penetration performance of EFP.

Topics & Concepts

DetonationExplosive materialProjectileMechanicsMaterials sciencePenetration (warfare)Shaped chargeAcousticsOpticsPhysicsEngineeringChemistryOperations researchOrganic chemistryMetallurgyEnergetic Materials and CombustionHigh-Velocity Impact and Material BehaviorElectromagnetic Launch and Propulsion Technology