Numerical simulation of loading cylindrical shell by explosive rods (III): fidelity for simulating X-ray mechanical effects

Yong Jian Mao; Yu Long Li; Ying Chen; Han Jun Huang; Jun Ping Wang

Numerical simulation of loading cylindrical shell by explosive rods (III): fidelity for simulating X-ray mechanical effects

Yong Jian Mao, Yu Long Li, Ying Chen, Han Jun Huang, Jun Ping Wang

School of Civil Aviation

China Academy of Engineering Physics

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

5 Scopus citations

Abstract

According to the prior uncoupling analysis and utilizing the Rotation-Superposition Method, a large number of numerical experiments for loading cylindrical shells by explosive rods were performed. The average strain difference at three typical locations was defined as the index for evaluating the test simulation fidelity. It was found that the index mainly relies on the ratio of the rods number to the shell radius, i.e. n/r. The relations between the average strain difference and n/r under four conditions, i.e. the normal (ideal) condition, considering incomplete initiations, explosive rod distribution error and non-simultaneous initiations, were obtained. The investigation provides guidelines for the test design and results evaluation.

Original language	English
Pages (from-to)	711-718
Number of pages	8
Journal	Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics
Volume	27
Issue number	5
State	Published - 2013

Keywords

Cylindrical shell
Explosive rod
Fidelity
Rotation-superposition method
Structural response
X-ray

Cite this

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title = "Numerical simulation of loading cylindrical shell by explosive rods (III): fidelity for simulating X-ray mechanical effects",

abstract = "According to the prior uncoupling analysis and utilizing the Rotation-Superposition Method, a large number of numerical experiments for loading cylindrical shells by explosive rods were performed. The average strain difference at three typical locations was defined as the index for evaluating the test simulation fidelity. It was found that the index mainly relies on the ratio of the rods number to the shell radius, i.e. n/r. The relations between the average strain difference and n/r under four conditions, i.e. the normal (ideal) condition, considering incomplete initiations, explosive rod distribution error and non-simultaneous initiations, were obtained. The investigation provides guidelines for the test design and results evaluation.",

keywords = "Cylindrical shell, Explosive rod, Fidelity, Rotation-superposition method, Structural response, X-ray",

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T1 - Numerical simulation of loading cylindrical shell by explosive rods (III)

T2 - fidelity for simulating X-ray mechanical effects

AU - Mao, Yong Jian

AU - Li, Yu Long

AU - Chen, Ying

AU - Huang, Han Jun

AU - Wang, Jun Ping

PY - 2013

Y1 - 2013

N2 - According to the prior uncoupling analysis and utilizing the Rotation-Superposition Method, a large number of numerical experiments for loading cylindrical shells by explosive rods were performed. The average strain difference at three typical locations was defined as the index for evaluating the test simulation fidelity. It was found that the index mainly relies on the ratio of the rods number to the shell radius, i.e. n/r. The relations between the average strain difference and n/r under four conditions, i.e. the normal (ideal) condition, considering incomplete initiations, explosive rod distribution error and non-simultaneous initiations, were obtained. The investigation provides guidelines for the test design and results evaluation.

AB - According to the prior uncoupling analysis and utilizing the Rotation-Superposition Method, a large number of numerical experiments for loading cylindrical shells by explosive rods were performed. The average strain difference at three typical locations was defined as the index for evaluating the test simulation fidelity. It was found that the index mainly relies on the ratio of the rods number to the shell radius, i.e. n/r. The relations between the average strain difference and n/r under four conditions, i.e. the normal (ideal) condition, considering incomplete initiations, explosive rod distribution error and non-simultaneous initiations, were obtained. The investigation provides guidelines for the test design and results evaluation.

KW - Cylindrical shell

KW - Explosive rod

KW - Fidelity

KW - Rotation-superposition method

KW - Structural response

KW - X-ray

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M3 - 文章

AN - SCOPUS:84892512163

SN - 1000-5773

VL - 27

SP - 711

EP - 718

JO - Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics

JF - Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics

IS - 5

ER -

Numerical simulation of loading cylindrical shell by explosive rods (III): fidelity for simulating X-ray mechanical effects

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