基于气体发生剂的子弹药气囊抛撒数值模拟研究

Qi Wang; Jian Wei Jiang; Shu You Wang

doi:10.3969/j.issn.1000-1093.2018.05.005

基于气体发生剂的子弹药气囊抛撒数值模拟研究

Translated title of the contribution: Research on Numerical Simulation of Submunition Dispenser with Gas Generant and Airbag

Qi Wang, Jian Wei Jiang^*, Shu You Wang

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

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

7 Citations (Scopus)

Abstract

For the numerical simulation of submunition dispenser with gas generant and airbag, a model of airbag dispersing is built by using software LS-DYNA and solid-liquid coupling ALE algorithm, in which the mass flow rate of gas is considered as the input parameter of numerical simulation. On the basis of interior ballistic theory and closed bomb vessel experiment, the nominal combustion rate equation of gas generant and the mass flow rate equation are presented. The typical structure of submunition dispenser fileed with different amount of gas generant is simulated to obtain the velocity of submunition dispensed from airbag and the change of overload peak with the amount of gas generant. The simulated results are in agreement with the test results. The results show that the proposed method could be used to predict the velocity and acceleration of submunitions in practical tests.

Translated title of the contribution	Research on Numerical Simulation of Submunition Dispenser with Gas Generant and Airbag
Original language	Chinese (Traditional)
Pages (from-to)	867-874
Number of pages	8
Journal	Binggong Xuebao/Acta Armamentarii
Volume	39
Issue number	5
DOIs	https://doi.org/10.3969/j.issn.1000-1093.2018.05.005
Publication status	Published - 1 May 2018

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title = "基于气体发生剂的子弹药气囊抛撒数值模拟研究",

abstract = "For the numerical simulation of submunition dispenser with gas generant and airbag, a model of airbag dispersing is built by using software LS-DYNA and solid-liquid coupling ALE algorithm, in which the mass flow rate of gas is considered as the input parameter of numerical simulation. On the basis of interior ballistic theory and closed bomb vessel experiment, the nominal combustion rate equation of gas generant and the mass flow rate equation are presented. The typical structure of submunition dispenser fileed with different amount of gas generant is simulated to obtain the velocity of submunition dispensed from airbag and the change of overload peak with the amount of gas generant. The simulated results are in agreement with the test results. The results show that the proposed method could be used to predict the velocity and acceleration of submunitions in practical tests.",

keywords = "Airbag dispersion, Arbitrary Lagrangian-Eulerian method, Dispenser bomb, Gas generant, Numerical simulation",

author = "Qi Wang and Jiang, {Jian Wei} and Wang, {Shu You}",

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doi = "10.3969/j.issn.1000-1093.2018.05.005",

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AU - Wang, Qi

AU - Jiang, Jian Wei

AU - Wang, Shu You

PY - 2018/5/1

Y1 - 2018/5/1

N2 - For the numerical simulation of submunition dispenser with gas generant and airbag, a model of airbag dispersing is built by using software LS-DYNA and solid-liquid coupling ALE algorithm, in which the mass flow rate of gas is considered as the input parameter of numerical simulation. On the basis of interior ballistic theory and closed bomb vessel experiment, the nominal combustion rate equation of gas generant and the mass flow rate equation are presented. The typical structure of submunition dispenser fileed with different amount of gas generant is simulated to obtain the velocity of submunition dispensed from airbag and the change of overload peak with the amount of gas generant. The simulated results are in agreement with the test results. The results show that the proposed method could be used to predict the velocity and acceleration of submunitions in practical tests.

AB - For the numerical simulation of submunition dispenser with gas generant and airbag, a model of airbag dispersing is built by using software LS-DYNA and solid-liquid coupling ALE algorithm, in which the mass flow rate of gas is considered as the input parameter of numerical simulation. On the basis of interior ballistic theory and closed bomb vessel experiment, the nominal combustion rate equation of gas generant and the mass flow rate equation are presented. The typical structure of submunition dispenser fileed with different amount of gas generant is simulated to obtain the velocity of submunition dispensed from airbag and the change of overload peak with the amount of gas generant. The simulated results are in agreement with the test results. The results show that the proposed method could be used to predict the velocity and acceleration of submunitions in practical tests.

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KW - Arbitrary Lagrangian-Eulerian method

KW - Dispenser bomb

KW - Gas generant

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基于气体发生剂的子弹药气囊抛撒数值模拟研究

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