Enviar artigo por via de e-mail Jet Penetration Effect of an Inward-Cutting Circular Shaped Charge with Different Number of Detonation Points
- Autores: Wu S.1, Fang X.1, Li Y.1, Gao Z.1, Liu Q.1, Liu J.1, Xu J.1, Gu W.1
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Afiliações:
- Army Engineering University of PLA
- Edição: Volume 55, Nº 6 (2019)
- Páginas: 750-758
- Seção: Article
- URL: https://ogarev-online.ru/0010-5082/article/view/153307
- DOI: https://doi.org/10.1134/S0010508219060182
- ID: 153307
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Resumo
The breach of a steel column target (Steel 45, 120 mm in diameter) by an inward-cutting circular shaped charge is considered. The jet penetration process is simulated by a 3D model run in the ANSYS/LS-DYNA program. The results are compared with actual tests, where photographs of the jet penetration process allowed observation of detonation forms, timing of the jets arising at the cross section of the detonation points, and detonation wave collision points. Different penetration effects are observed with 2-, 4-, or 8-point symmetrical synchronous initiation of detonation. With 2-point initiation, the circular-shaped charge can basically cut off the steel column target, but 4- and 8-point initiation is more effective. A greater number of detonation points provides more detonation wave collision points, higher jet velocity, earlier jet-target contact, greater penetration depth, and more rapid cutting of the target.
Sobre autores
Sh.-Zh. Wu
Army Engineering University of PLA
Email: guwenbin1@aliyun.com
República Popular da China, Nanjing, 210007
X.-A. Fang
Army Engineering University of PLA
Email: guwenbin1@aliyun.com
República Popular da China, Nanjing, 210007
Y.-Ch. Li
Army Engineering University of PLA
Email: guwenbin1@aliyun.com
República Popular da China, Nanjing, 210007
Zh.-R. Gao
Army Engineering University of PLA
Email: guwenbin1@aliyun.com
República Popular da China, Nanjing, 210007
Q.-A. Liu
Army Engineering University of PLA
Autor responsável pela correspondência
Email: guwenbin1@aliyun.com
República Popular da China, Nanjing, 210007
J.-Q. Liu
Army Engineering University of PLA
Email: guwenbin1@aliyun.com
República Popular da China, Nanjing, 210007
J.-L. Xu
Army Engineering University of PLA
Email: guwenbin1@aliyun.com
República Popular da China, Nanjing, 210007
W.-B. Gu
Army Engineering University of PLA
Email: guwenbin1@aliyun.com
República Popular da China, Nanjing, 210007
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