Numerical simulation and experimental study of penetration of linear shaped charge jet into double-layer composite structure

Ping Gong; Chun Liang Xin; Wen Qing Shi; Jun Mei Ren; Zai Qing Xue; Shu Shan Wang

Numerical simulation and experimental study of penetration of linear shaped charge jet into double-layer composite structure

Ping Gong^*, Chun Liang Xin, Wen Qing Shi, Jun Mei Ren, Zai Qing Xue, Shu Shan Wang

^*Corresponding author for this work

School of Mechatronical Engineering

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

1 Citation (Scopus)

Abstract

To determine the linear shaped charge parameters to cut the composite structure of aluminum plate with a thickness of 4.2 mm and non-metallic layer with a thickness of 6.2 mm, the formation process and velocity change of the linear shaped charge jet, the destruction of jet to the composite structure and the penetration diameter were analyzed through numerical simulation. On this basis, the experimental study was carried out on the penetration of linear shaped charges with different charge densities into the composite structure at different burst heights. The experimental results show that the non-metallic material is very different from the metallic material in destruction mode, which there are many burrs and laceration on the fracture surface. The numerical simulation results are consistent with the experimental results.

Original language	English
Pages (from-to)	347-351
Number of pages	5
Journal	Binggong Xuebao/Acta Armamentarii
Volume	33
Issue number	SUPPL2
Publication status	Published - Dec 2012

Keywords

Composite structure
Explosion mechanics
Linear shaped charge jet
Penetration

Cite this

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title = "Numerical simulation and experimental study of penetration of linear shaped charge jet into double-layer composite structure",

abstract = "To determine the linear shaped charge parameters to cut the composite structure of aluminum plate with a thickness of 4.2 mm and non-metallic layer with a thickness of 6.2 mm, the formation process and velocity change of the linear shaped charge jet, the destruction of jet to the composite structure and the penetration diameter were analyzed through numerical simulation. On this basis, the experimental study was carried out on the penetration of linear shaped charges with different charge densities into the composite structure at different burst heights. The experimental results show that the non-metallic material is very different from the metallic material in destruction mode, which there are many burrs and laceration on the fracture surface. The numerical simulation results are consistent with the experimental results.",

keywords = "Composite structure, Explosion mechanics, Linear shaped charge jet, Penetration",

author = "Ping Gong and Xin, {Chun Liang} and Shi, {Wen Qing} and Ren, {Jun Mei} and Xue, {Zai Qing} and Wang, {Shu Shan}",

year = "2012",

month = dec,

language = "English",

volume = "33",

pages = "347--351",

journal = "Binggong Xuebao/Acta Armamentarii",

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TY - JOUR

T1 - Numerical simulation and experimental study of penetration of linear shaped charge jet into double-layer composite structure

AU - Gong, Ping

AU - Xin, Chun Liang

AU - Shi, Wen Qing

AU - Ren, Jun Mei

AU - Xue, Zai Qing

AU - Wang, Shu Shan

PY - 2012/12

Y1 - 2012/12

N2 - To determine the linear shaped charge parameters to cut the composite structure of aluminum plate with a thickness of 4.2 mm and non-metallic layer with a thickness of 6.2 mm, the formation process and velocity change of the linear shaped charge jet, the destruction of jet to the composite structure and the penetration diameter were analyzed through numerical simulation. On this basis, the experimental study was carried out on the penetration of linear shaped charges with different charge densities into the composite structure at different burst heights. The experimental results show that the non-metallic material is very different from the metallic material in destruction mode, which there are many burrs and laceration on the fracture surface. The numerical simulation results are consistent with the experimental results.

AB - To determine the linear shaped charge parameters to cut the composite structure of aluminum plate with a thickness of 4.2 mm and non-metallic layer with a thickness of 6.2 mm, the formation process and velocity change of the linear shaped charge jet, the destruction of jet to the composite structure and the penetration diameter were analyzed through numerical simulation. On this basis, the experimental study was carried out on the penetration of linear shaped charges with different charge densities into the composite structure at different burst heights. The experimental results show that the non-metallic material is very different from the metallic material in destruction mode, which there are many burrs and laceration on the fracture surface. The numerical simulation results are consistent with the experimental results.

KW - Composite structure

KW - Explosion mechanics

KW - Linear shaped charge jet

KW - Penetration

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M3 - Article

AN - SCOPUS:84877885370

SN - 1000-1093

VL - 33

SP - 347

EP - 351

JO - Binggong Xuebao/Acta Armamentarii

JF - Binggong Xuebao/Acta Armamentarii

IS - SUPPL2

ER -

Numerical simulation and experimental study of penetration of linear shaped charge jet into double-layer composite structure

Abstract

Keywords

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