Experimental investigation on penetration of prefragment into protective door

Xiang Yun Xu; Shun Shan Feng; Guang Yan Huang; Dong Liang Jin; Wei Liang Gao

Experimental investigation on penetration of prefragment into protective door

Xiang Yun Xu^*, Shun Shan Feng, Guang Yan Huang, Dong Liang Jin, Wei Liang Gao

^*Corresponding author for this work

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

Abstract

With the wide use of precision guided weapons, the entrance of underground engineering is likely to be struck by the deep penetration weapons, and the protective doors are encountered with threat from high-speed fragments. The experiments were carried out, in which common reinforced concrete (RC) and reactive powder concrete (RPC) protective doors are tested by high-speed fragments. The fragments were shot by a fragment generator. It is indicated that the fragment generator is able to shot multiple fragments at an anticipated velocity, and the fragments are reasonably distributed, which satisfies the requirements of experimental design. It is found that the protective doors made of RPC perform higher protective capability against fragment penetration than that of common RC. With the same parameters of fragments, common RC door of 120 mm thickness is completely perforated, while the depth of penetration in RPC door is only 65 mm.

Original language	English
Pages (from-to)	397-400
Number of pages	4
Journal	Binggong Xuebao/Acta Armamentarii
Volume	33
Issue number	SUPPL2
Publication status	Published - Dec 2012
Externally published	Yes

Keywords

Experimental investigation
Explosion mechanics
Fragment
Penetration
Protective door

Cite this

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title = "Experimental investigation on penetration of prefragment into protective door",

abstract = "With the wide use of precision guided weapons, the entrance of underground engineering is likely to be struck by the deep penetration weapons, and the protective doors are encountered with threat from high-speed fragments. The experiments were carried out, in which common reinforced concrete (RC) and reactive powder concrete (RPC) protective doors are tested by high-speed fragments. The fragments were shot by a fragment generator. It is indicated that the fragment generator is able to shot multiple fragments at an anticipated velocity, and the fragments are reasonably distributed, which satisfies the requirements of experimental design. It is found that the protective doors made of RPC perform higher protective capability against fragment penetration than that of common RC. With the same parameters of fragments, common RC door of 120 mm thickness is completely perforated, while the depth of penetration in RPC door is only 65 mm.",

keywords = "Experimental investigation, Explosion mechanics, Fragment, Penetration, Protective door",

author = "Xu, {Xiang Yun} and Feng, {Shun Shan} and Huang, {Guang Yan} and Jin, {Dong Liang} and Gao, {Wei Liang}",

year = "2012",

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language = "English",

volume = "33",

pages = "397--400",

journal = "Binggong Xuebao/Acta Armamentarii",

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number = "SUPPL2",

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TY - JOUR

T1 - Experimental investigation on penetration of prefragment into protective door

AU - Xu, Xiang Yun

AU - Feng, Shun Shan

AU - Huang, Guang Yan

AU - Jin, Dong Liang

AU - Gao, Wei Liang

PY - 2012/12

Y1 - 2012/12

N2 - With the wide use of precision guided weapons, the entrance of underground engineering is likely to be struck by the deep penetration weapons, and the protective doors are encountered with threat from high-speed fragments. The experiments were carried out, in which common reinforced concrete (RC) and reactive powder concrete (RPC) protective doors are tested by high-speed fragments. The fragments were shot by a fragment generator. It is indicated that the fragment generator is able to shot multiple fragments at an anticipated velocity, and the fragments are reasonably distributed, which satisfies the requirements of experimental design. It is found that the protective doors made of RPC perform higher protective capability against fragment penetration than that of common RC. With the same parameters of fragments, common RC door of 120 mm thickness is completely perforated, while the depth of penetration in RPC door is only 65 mm.

AB - With the wide use of precision guided weapons, the entrance of underground engineering is likely to be struck by the deep penetration weapons, and the protective doors are encountered with threat from high-speed fragments. The experiments were carried out, in which common reinforced concrete (RC) and reactive powder concrete (RPC) protective doors are tested by high-speed fragments. The fragments were shot by a fragment generator. It is indicated that the fragment generator is able to shot multiple fragments at an anticipated velocity, and the fragments are reasonably distributed, which satisfies the requirements of experimental design. It is found that the protective doors made of RPC perform higher protective capability against fragment penetration than that of common RC. With the same parameters of fragments, common RC door of 120 mm thickness is completely perforated, while the depth of penetration in RPC door is only 65 mm.

KW - Experimental investigation

KW - Explosion mechanics

KW - Fragment

KW - Penetration

KW - Protective door

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SN - 1000-1093

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JF - Binggong Xuebao/Acta Armamentarii

IS - SUPPL2

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Experimental investigation on penetration of prefragment into protective door

Abstract

Keywords

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