Impact of inert metal particles flow on aluminium plate

Zhongqi Wang; Yi Liu; Yahong Chen; Chunhua Bai

doi:10.1007/s12209-008-0069-8

Impact of inert metal particles flow on aluminium plate

Zhongqi Wang^*, Yi Liu, Yahong Chen, Chunhua Bai

^*Corresponding author for this work

Beijing Institute of Technology

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

Abstract

Inert metal explosive, a new kind of explosive, is a mixture of high explosive and inert metal particle. When this kind of explosive is detonated, an inert metal particle flow will be formed by the explosive product driving. To determine the characteristics of the movement of the metal particle flow, a series of aluminium plates were designed to be the targets on which the metal particle flow impacted. The test result was presented and a numerical model was set up to analyze the impact of the high speed inert metal particles on aluminium plate. Based on the numerical analysis, the relationship between the characteristic of the mark on the target plate and the initial condition of the inert metal particles was proposed. From the analysis of the impact on target plates, more information about the movement of the metal particles could be reconstructed.

Original language	English
Pages (from-to)	403-408
Number of pages	6
Journal	Transactions of Tianjin University
Volume	14
Issue number	6
DOIs	https://doi.org/10.1007/s12209-008-0069-8
Publication status	Published - Dec 2008

Keywords

High speed impact
Inert metal explosive
Metal particle flow

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Wang, Z., Liu, Y., Chen, Y., & Bai, C. (2008). Impact of inert metal particles flow on aluminium plate. Transactions of Tianjin University, 14(6), 403-408. https://doi.org/10.1007/s12209-008-0069-8

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abstract = "Inert metal explosive, a new kind of explosive, is a mixture of high explosive and inert metal particle. When this kind of explosive is detonated, an inert metal particle flow will be formed by the explosive product driving. To determine the characteristics of the movement of the metal particle flow, a series of aluminium plates were designed to be the targets on which the metal particle flow impacted. The test result was presented and a numerical model was set up to analyze the impact of the high speed inert metal particles on aluminium plate. Based on the numerical analysis, the relationship between the characteristic of the mark on the target plate and the initial condition of the inert metal particles was proposed. From the analysis of the impact on target plates, more information about the movement of the metal particles could be reconstructed.",

keywords = "High speed impact, Inert metal explosive, Metal particle flow",

author = "Zhongqi Wang and Yi Liu and Yahong Chen and Chunhua Bai",

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doi = "10.1007/s12209-008-0069-8",

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T1 - Impact of inert metal particles flow on aluminium plate

AU - Wang, Zhongqi

AU - Liu, Yi

AU - Chen, Yahong

AU - Bai, Chunhua

PY - 2008/12

Y1 - 2008/12

N2 - Inert metal explosive, a new kind of explosive, is a mixture of high explosive and inert metal particle. When this kind of explosive is detonated, an inert metal particle flow will be formed by the explosive product driving. To determine the characteristics of the movement of the metal particle flow, a series of aluminium plates were designed to be the targets on which the metal particle flow impacted. The test result was presented and a numerical model was set up to analyze the impact of the high speed inert metal particles on aluminium plate. Based on the numerical analysis, the relationship between the characteristic of the mark on the target plate and the initial condition of the inert metal particles was proposed. From the analysis of the impact on target plates, more information about the movement of the metal particles could be reconstructed.

AB - Inert metal explosive, a new kind of explosive, is a mixture of high explosive and inert metal particle. When this kind of explosive is detonated, an inert metal particle flow will be formed by the explosive product driving. To determine the characteristics of the movement of the metal particle flow, a series of aluminium plates were designed to be the targets on which the metal particle flow impacted. The test result was presented and a numerical model was set up to analyze the impact of the high speed inert metal particles on aluminium plate. Based on the numerical analysis, the relationship between the characteristic of the mark on the target plate and the initial condition of the inert metal particles was proposed. From the analysis of the impact on target plates, more information about the movement of the metal particles could be reconstructed.

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KW - Inert metal explosive

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Impact of inert metal particles flow on aluminium plate

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