Numerical simulation of the 2-D explosive field for the effect of protective wall's shape

Yu Ling Shen; Jian Guo Ning

Numerical simulation of the 2-D explosive field for the effect of protective wall's shape

Yu Ling Shen^*, Jian Guo Ning

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

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

4 Citations (Scopus)

Abstract

The effect of the protective wall's shape on the shock wave propagation of 2-D explosive field is studied. Under the condition that the outside force, the outside resources and the heat exchange are ignored, the partial differential conservation equations of the compressible fluid are given by adopting the fluid model. The multi-material in cell (MMIC) method and the and splitting scheme are adopted to calculate the transport step. At the same time, for the detonation products, the JWL state equation is adopted, and the air is approximately regarded as the ideal gas. Accordingly the effects of the shapes of the protective wall's both sides on the shock wave propagation are obtained, and the relations between them are listed. It is shown that the shape of the edge near to the explosive center of the protective wall affects the shock wave propagation obviously.

Original language	English
Pages (from-to)	39-44
Number of pages	6
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	10
Issue number	1
Publication status	Published - Mar 2001

Keywords

Explosion field
Multi-material in cell (MMIC)
Numerical simulation
Shock wave

Cite this

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abstract = "The effect of the protective wall's shape on the shock wave propagation of 2-D explosive field is studied. Under the condition that the outside force, the outside resources and the heat exchange are ignored, the partial differential conservation equations of the compressible fluid are given by adopting the fluid model. The multi-material in cell (MMIC) method and the and splitting scheme are adopted to calculate the transport step. At the same time, for the detonation products, the JWL state equation is adopted, and the air is approximately regarded as the ideal gas. Accordingly the effects of the shapes of the protective wall's both sides on the shock wave propagation are obtained, and the relations between them are listed. It is shown that the shape of the edge near to the explosive center of the protective wall affects the shock wave propagation obviously.",

keywords = "Explosion field, Multi-material in cell (MMIC), Numerical simulation, Shock wave",

author = "Shen, {Yu Ling} and Ning, {Jian Guo}",

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T1 - Numerical simulation of the 2-D explosive field for the effect of protective wall's shape

AU - Shen, Yu Ling

AU - Ning, Jian Guo

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N2 - The effect of the protective wall's shape on the shock wave propagation of 2-D explosive field is studied. Under the condition that the outside force, the outside resources and the heat exchange are ignored, the partial differential conservation equations of the compressible fluid are given by adopting the fluid model. The multi-material in cell (MMIC) method and the and splitting scheme are adopted to calculate the transport step. At the same time, for the detonation products, the JWL state equation is adopted, and the air is approximately regarded as the ideal gas. Accordingly the effects of the shapes of the protective wall's both sides on the shock wave propagation are obtained, and the relations between them are listed. It is shown that the shape of the edge near to the explosive center of the protective wall affects the shock wave propagation obviously.

AB - The effect of the protective wall's shape on the shock wave propagation of 2-D explosive field is studied. Under the condition that the outside force, the outside resources and the heat exchange are ignored, the partial differential conservation equations of the compressible fluid are given by adopting the fluid model. The multi-material in cell (MMIC) method and the and splitting scheme are adopted to calculate the transport step. At the same time, for the detonation products, the JWL state equation is adopted, and the air is approximately regarded as the ideal gas. Accordingly the effects of the shapes of the protective wall's both sides on the shock wave propagation are obtained, and the relations between them are listed. It is shown that the shape of the edge near to the explosive center of the protective wall affects the shock wave propagation obviously.

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KW - Multi-material in cell (MMIC)

KW - Numerical simulation

KW - Shock wave

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JO - Journal of Beijing Institute of Technology (English Edition)

JF - Journal of Beijing Institute of Technology (English Edition)

IS - 1

ER -

Numerical simulation of the 2-D explosive field for the effect of protective wall's shape

Abstract

Keywords

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