Shock initiation of explosives investigated with small partition experiment and numerical simulation

Weijun Tao; Shi Huan; Fenglei Huang; Guoping Jiang

doi:10.1016/S0894-9166(13)60032-4

Shock initiation of explosives investigated with small partition experiment and numerical simulation

Weijun Tao^*, Shi Huan, Fenglei Huang, Guoping Jiang

^*Corresponding author for this work

School of Mechatronical Engineering

Guangzhou University

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

4 Citations (Scopus)

Abstract

In order to investigate the shock ignition of high energy solid explosives by shock waves, we carry out Lagrangian experiments with 2-D Lagrangian technique which uses composite manganin-constantan (CMC). The effects of the shock sensitivity of pressed solid high explosives, TNT, and the effect of the lateral rarefaction wave were studied. Based on the measured pressure histories and the radial displacements, we formulate the Ignition and Growth reactive flow models for the pressed TNT. The shock initiation process simulated by Ignition and Growth model agreed well with experimental data. This pressed TNT model can be applied to shock initiation scenarios which are highly unpredictable and have not been or cannot be tested experimentally.

Original language	English
Pages (from-to)	353-361
Number of pages	9
Journal	Acta Mechanica Solida Sinica
Volume	26
Issue number	4
DOIs	https://doi.org/10.1016/S0894-9166(13)60032-4
Publication status	Published - Aug 2013

Keywords

Lagrangian analysis
explosive
rarefaction wave
shock waves
state equation

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10.1016/S0894-9166(13)60032-4

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title = "Shock initiation of explosives investigated with small partition experiment and numerical simulation",

abstract = "In order to investigate the shock ignition of high energy solid explosives by shock waves, we carry out Lagrangian experiments with 2-D Lagrangian technique which uses composite manganin-constantan (CMC). The effects of the shock sensitivity of pressed solid high explosives, TNT, and the effect of the lateral rarefaction wave were studied. Based on the measured pressure histories and the radial displacements, we formulate the Ignition and Growth reactive flow models for the pressed TNT. The shock initiation process simulated by Ignition and Growth model agreed well with experimental data. This pressed TNT model can be applied to shock initiation scenarios which are highly unpredictable and have not been or cannot be tested experimentally.",

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author = "Weijun Tao and Shi Huan and Fenglei Huang and Guoping Jiang",

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T1 - Shock initiation of explosives investigated with small partition experiment and numerical simulation

AU - Tao, Weijun

AU - Huan, Shi

AU - Huang, Fenglei

AU - Jiang, Guoping

PY - 2013/8

Y1 - 2013/8

N2 - In order to investigate the shock ignition of high energy solid explosives by shock waves, we carry out Lagrangian experiments with 2-D Lagrangian technique which uses composite manganin-constantan (CMC). The effects of the shock sensitivity of pressed solid high explosives, TNT, and the effect of the lateral rarefaction wave were studied. Based on the measured pressure histories and the radial displacements, we formulate the Ignition and Growth reactive flow models for the pressed TNT. The shock initiation process simulated by Ignition and Growth model agreed well with experimental data. This pressed TNT model can be applied to shock initiation scenarios which are highly unpredictable and have not been or cannot be tested experimentally.

AB - In order to investigate the shock ignition of high energy solid explosives by shock waves, we carry out Lagrangian experiments with 2-D Lagrangian technique which uses composite manganin-constantan (CMC). The effects of the shock sensitivity of pressed solid high explosives, TNT, and the effect of the lateral rarefaction wave were studied. Based on the measured pressure histories and the radial displacements, we formulate the Ignition and Growth reactive flow models for the pressed TNT. The shock initiation process simulated by Ignition and Growth model agreed well with experimental data. This pressed TNT model can be applied to shock initiation scenarios which are highly unpredictable and have not been or cannot be tested experimentally.

KW - Lagrangian analysis

KW - explosive

KW - rarefaction wave

KW - shock waves

KW - state equation

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DO - 10.1016/S0894-9166(13)60032-4

M3 - Article

AN - SCOPUS:84883531564

SN - 0894-9166

VL - 26

SP - 353

EP - 361

JO - Acta Mechanica Solida Sinica

JF - Acta Mechanica Solida Sinica

IS - 4

ER -

Shock initiation of explosives investigated with small partition experiment and numerical simulation

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