The number of circumferential fragments of a cylindrical shell subjected to internal explosive loading

Zhi Biao Zhang; Feng Lei Huang

doi:10.11883/1001-1455(2015)05-0763-05

The number of circumferential fragments of a cylindrical shell subjected to internal explosive loading

Zhi Biao Zhang, Feng Lei Huang^*

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

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

1 Citation (Scopus)

Abstract

Based on the Gurney velocity formula for cylindrical shells with finite length, the average strain rate was estimated by the average radius of the shell. And by taking into account the differences between the shear fracture surface length of the shell and the radial thickness, the Grady-Kipp method was modified to give a full expression for the number of the circumferential fragments of the cylindrical shell. The number of the circumferential fragments number calculated by the modified Grady-Kipp method can better match with the experimental result than one by the Grady theory. The 20^# low-carbon steel was taken as an example to numerically simulate the expansion and fracture of low-carbon steel shells under TNT explosion loading. The numbers of the circumferential fragments of the low-carbon steel shells by numerical simulation are in agreement with the experimental one.

Original language	English
Pages (from-to)	763-767
Number of pages	5
Journal	Baozha Yu Chongji/Expolosion and Shock Waves
Volume	35
Issue number	5
DOIs	https://doi.org/10.11883/1001-1455(2015)05-0763-05
Publication status	Published - 25 Sept 2015

Keywords

Cylindrical shell
Dynamic fracture
Explosive loading
Low-carbon steel
Mechanics of explosion
Number of circumferential fragments

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10.11883/1001-1455(2015)05-0763-05

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title = "The number of circumferential fragments of a cylindrical shell subjected to internal explosive loading",

abstract = "Based on the Gurney velocity formula for cylindrical shells with finite length, the average strain rate was estimated by the average radius of the shell. And by taking into account the differences between the shear fracture surface length of the shell and the radial thickness, the Grady-Kipp method was modified to give a full expression for the number of the circumferential fragments of the cylindrical shell. The number of the circumferential fragments number calculated by the modified Grady-Kipp method can better match with the experimental result than one by the Grady theory. The 20# low-carbon steel was taken as an example to numerically simulate the expansion and fracture of low-carbon steel shells under TNT explosion loading. The numbers of the circumferential fragments of the low-carbon steel shells by numerical simulation are in agreement with the experimental one.",

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T1 - The number of circumferential fragments of a cylindrical shell subjected to internal explosive loading

AU - Zhang, Zhi Biao

AU - Huang, Feng Lei

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N2 - Based on the Gurney velocity formula for cylindrical shells with finite length, the average strain rate was estimated by the average radius of the shell. And by taking into account the differences between the shear fracture surface length of the shell and the radial thickness, the Grady-Kipp method was modified to give a full expression for the number of the circumferential fragments of the cylindrical shell. The number of the circumferential fragments number calculated by the modified Grady-Kipp method can better match with the experimental result than one by the Grady theory. The 20# low-carbon steel was taken as an example to numerically simulate the expansion and fracture of low-carbon steel shells under TNT explosion loading. The numbers of the circumferential fragments of the low-carbon steel shells by numerical simulation are in agreement with the experimental one.

AB - Based on the Gurney velocity formula for cylindrical shells with finite length, the average strain rate was estimated by the average radius of the shell. And by taking into account the differences between the shear fracture surface length of the shell and the radial thickness, the Grady-Kipp method was modified to give a full expression for the number of the circumferential fragments of the cylindrical shell. The number of the circumferential fragments number calculated by the modified Grady-Kipp method can better match with the experimental result than one by the Grady theory. The 20# low-carbon steel was taken as an example to numerically simulate the expansion and fracture of low-carbon steel shells under TNT explosion loading. The numbers of the circumferential fragments of the low-carbon steel shells by numerical simulation are in agreement with the experimental one.

KW - Cylindrical shell

KW - Dynamic fracture

KW - Explosive loading

KW - Low-carbon steel

KW - Mechanics of explosion

KW - Number of circumferential fragments

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The number of circumferential fragments of a cylindrical shell subjected to internal explosive loading

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