Explosive dispersal of solid and liquid media: Experimental investigation

Hai Yan Jiang; Shu Shan Wang; Ji Feng Wei; Bin Rao; Zhi Wei Zhang

doi:10.11883/1001-1455(2014)05-0574-06

Explosive dispersal of solid and liquid media: Experimental investigation

Hai Yan Jiang, Shu Shan Wang, Ji Feng Wei^*, Bin Rao, Zhi Wei Zhang

^*Corresponding author for this work

School of Mechatronical Engineering

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

3 Citations (Scopus)

Abstract

According to the dispersal mixing process of explosive-driven solid powder and liquid, a transparent double-layer dispersal device was designed. A high-speed photography system was used to record the shell crushing of the dispersal device and the evolution of the solid-liquid interface and dispersal cloud status. The crack in the shell appeared and the shell fractured first along the axial direction of the shell. Before the outer shell broke, the solid-liquid interface was clear, which indicated that the solid powder and liquid mixed mainly after the shell failure. The detonation waves driven by the detonating cord presented sliding-detonation characteristics, the dispersal cloud shape took on an inverted truncated cone, and the cloud movement velocities at the different sections were inversely proportional to the axial distance of the sections from the initiation location.

Original language	English
Pages (from-to)	574-579
Number of pages	6
Journal	Baozha Yu Chongji/Expolosion and Shock Waves
Volume	34
Issue number	5
DOIs	https://doi.org/10.11883/1001-1455(2014)05-0574-06
Publication status	Published - 25 Sept 2014

Keywords

Explosive dispersal
Interface
Liquid
Mechanics of explosion
Sliding detonation
Solid powder

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10.11883/1001-1455(2014)05-0574-06

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title = "Explosive dispersal of solid and liquid media: Experimental investigation",

abstract = "According to the dispersal mixing process of explosive-driven solid powder and liquid, a transparent double-layer dispersal device was designed. A high-speed photography system was used to record the shell crushing of the dispersal device and the evolution of the solid-liquid interface and dispersal cloud status. The crack in the shell appeared and the shell fractured first along the axial direction of the shell. Before the outer shell broke, the solid-liquid interface was clear, which indicated that the solid powder and liquid mixed mainly after the shell failure. The detonation waves driven by the detonating cord presented sliding-detonation characteristics, the dispersal cloud shape took on an inverted truncated cone, and the cloud movement velocities at the different sections were inversely proportional to the axial distance of the sections from the initiation location.",

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author = "Jiang, {Hai Yan} and Wang, {Shu Shan} and Wei, {Ji Feng} and Bin Rao and Zhang, {Zhi Wei}",

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T1 - Explosive dispersal of solid and liquid media

T2 - Experimental investigation

AU - Jiang, Hai Yan

AU - Wang, Shu Shan

AU - Wei, Ji Feng

AU - Rao, Bin

AU - Zhang, Zhi Wei

PY - 2014/9/25

Y1 - 2014/9/25

N2 - According to the dispersal mixing process of explosive-driven solid powder and liquid, a transparent double-layer dispersal device was designed. A high-speed photography system was used to record the shell crushing of the dispersal device and the evolution of the solid-liquid interface and dispersal cloud status. The crack in the shell appeared and the shell fractured first along the axial direction of the shell. Before the outer shell broke, the solid-liquid interface was clear, which indicated that the solid powder and liquid mixed mainly after the shell failure. The detonation waves driven by the detonating cord presented sliding-detonation characteristics, the dispersal cloud shape took on an inverted truncated cone, and the cloud movement velocities at the different sections were inversely proportional to the axial distance of the sections from the initiation location.

AB - According to the dispersal mixing process of explosive-driven solid powder and liquid, a transparent double-layer dispersal device was designed. A high-speed photography system was used to record the shell crushing of the dispersal device and the evolution of the solid-liquid interface and dispersal cloud status. The crack in the shell appeared and the shell fractured first along the axial direction of the shell. Before the outer shell broke, the solid-liquid interface was clear, which indicated that the solid powder and liquid mixed mainly after the shell failure. The detonation waves driven by the detonating cord presented sliding-detonation characteristics, the dispersal cloud shape took on an inverted truncated cone, and the cloud movement velocities at the different sections were inversely proportional to the axial distance of the sections from the initiation location.

KW - Explosive dispersal

KW - Interface

KW - Liquid

KW - Mechanics of explosion

KW - Sliding detonation

KW - Solid powder

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JO - Baozha Yu Chongji/Expolosion and Shock Waves

JF - Baozha Yu Chongji/Expolosion and Shock Waves

IS - 5

ER -

Explosive dispersal of solid and liquid media: Experimental investigation

Abstract

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