The Penetration–Explosion Effects of Differently Distributed Inactive/Active Composite Shaped Charge Jets

Jiacheng Peng; Jianwei Jiang; Jianbing Men; Jinlin Li; Dongkang Zhou; Yuan Hu

doi:10.3390/ma15010344

The Penetration–Explosion Effects of Differently Distributed Inactive/Active Composite Shaped Charge Jets

Jiacheng Peng
, Jianwei Jiang^*
, Jianbing Men
, Jinlin Li
, Dongkang Zhou
, Yuan Hu

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

An analysis of the penetration–explosion (PE) effects of four distributions of inactive/active composite jets shows that a well-designed inactive/active double-layer liner can promote composite jet damage. Penetration experiments were then carried out for shaped charge jets having a single inactive (Cu) liner or an inactive/active (Cu/Al) double-layer liner with variable liner height. The behaviors and firelight patterns of the different jets were captured by high-speed photography. The perforation, deformation area, and deflection were measured for each plate, showing that the Cu/Al jets have stronger PE effects. Numerical simulation shows that the tip of the composite jet generated from the full-height liner is only Cu, whereas for the other jet, from the double-layer liner, Cu is almost wrapped entirely by Al.

Original language	English
Article number	344
Journal	Materials
Volume	15
Issue number	1
DOIs	https://doi.org/10.3390/ma15010344
Publication status	Published - 1 Jan 2022

Keywords

Composite jets
Inactive/active double-layer liner
Penetration–explosion effects
Shaped charge

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10.3390/ma15010344

Cite this

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title = "The Penetration–Explosion Effects of Differently Distributed Inactive/Active Composite Shaped Charge Jets",

abstract = "An analysis of the penetration–explosion (PE) effects of four distributions of inactive/active composite jets shows that a well-designed inactive/active double-layer liner can promote composite jet damage. Penetration experiments were then carried out for shaped charge jets having a single inactive (Cu) liner or an inactive/active (Cu/Al) double-layer liner with variable liner height. The behaviors and firelight patterns of the different jets were captured by high-speed photography. The perforation, deformation area, and deflection were measured for each plate, showing that the Cu/Al jets have stronger PE effects. Numerical simulation shows that the tip of the composite jet generated from the full-height liner is only Cu, whereas for the other jet, from the double-layer liner, Cu is almost wrapped entirely by Al.",

keywords = "Composite jets, Inactive/active double-layer liner, Penetration–explosion effects, Shaped charge",

author = "Jiacheng Peng and Jianwei Jiang and Jianbing Men and Jinlin Li and Dongkang Zhou and Yuan Hu",

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AU - Peng, Jiacheng

AU - Jiang, Jianwei

AU - Men, Jianbing

AU - Li, Jinlin

AU - Zhou, Dongkang

AU - Hu, Yuan

PY - 2022/1/1

Y1 - 2022/1/1

N2 - An analysis of the penetration–explosion (PE) effects of four distributions of inactive/active composite jets shows that a well-designed inactive/active double-layer liner can promote composite jet damage. Penetration experiments were then carried out for shaped charge jets having a single inactive (Cu) liner or an inactive/active (Cu/Al) double-layer liner with variable liner height. The behaviors and firelight patterns of the different jets were captured by high-speed photography. The perforation, deformation area, and deflection were measured for each plate, showing that the Cu/Al jets have stronger PE effects. Numerical simulation shows that the tip of the composite jet generated from the full-height liner is only Cu, whereas for the other jet, from the double-layer liner, Cu is almost wrapped entirely by Al.

AB - An analysis of the penetration–explosion (PE) effects of four distributions of inactive/active composite jets shows that a well-designed inactive/active double-layer liner can promote composite jet damage. Penetration experiments were then carried out for shaped charge jets having a single inactive (Cu) liner or an inactive/active (Cu/Al) double-layer liner with variable liner height. The behaviors and firelight patterns of the different jets were captured by high-speed photography. The perforation, deformation area, and deflection were measured for each plate, showing that the Cu/Al jets have stronger PE effects. Numerical simulation shows that the tip of the composite jet generated from the full-height liner is only Cu, whereas for the other jet, from the double-layer liner, Cu is almost wrapped entirely by Al.

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KW - Inactive/active double-layer liner

KW - Penetration–explosion effects

KW - Shaped charge

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JO - Materials

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ER -

The Penetration–Explosion Effects of Differently Distributed Inactive/Active Composite Shaped Charge Jets

Abstract

Keywords

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