Numerical simulation of hypervelocity impact with subdomains in SPH computation

Liang Bian; Xiaojun Wang; Jie Zhang; Kai Zhao

Numerical simulation of hypervelocity impact with subdomains in SPH computation

Liang Bian, Xiaojun Wang, Jie Zhang, Kai Zhao

University of Science and Technology of China

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

8 Scopus citations

Abstract

Considering the fact that large deviatoric deformations are always localized in a small narrow region in hypervelocity impact problems, a method named subdomain computation for SPH(smoothed particle hydrodynamics) is developed. The entire computational domain is divided into several subdomains. In subdomains where large deformation is developed more particles are placed, and in subdomains where only small deformation is developed fewer particles are placed. Computational instability induced at interface of two subdomains is discussed and a method to handle the instability is proposed. Numerical simulations of a rod projectile penetrating into a thick target are carried out with the method and traditional SPH. It shows that computation accuracy as well as computation efficiency are improved.

Original language	English
Pages (from-to)	207-212
Number of pages	6
Journal	Jisuan Wuli/Chinese Journal of Computational Physics
Volume	28
Issue number	2
State	Published - Mar 2011
Externally published	Yes

Scopus Subject Areas

Modeling and Simulation
General Physics and Astronomy
Applied Mathematics

Keywords

Hypervelocity impact
Solid mechanics
SPH method
Subdomain method

Cite this

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title = "Numerical simulation of hypervelocity impact with subdomains in SPH computation",

abstract = "Considering the fact that large deviatoric deformations are always localized in a small narrow region in hypervelocity impact problems, a method named subdomain computation for SPH(smoothed particle hydrodynamics) is developed. The entire computational domain is divided into several subdomains. In subdomains where large deformation is developed more particles are placed, and in subdomains where only small deformation is developed fewer particles are placed. Computational instability induced at interface of two subdomains is discussed and a method to handle the instability is proposed. Numerical simulations of a rod projectile penetrating into a thick target are carried out with the method and traditional SPH. It shows that computation accuracy as well as computation efficiency are improved.",

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author = "Liang Bian and Xiaojun Wang and Jie Zhang and Kai Zhao",

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pages = "207--212",

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T1 - Numerical simulation of hypervelocity impact with subdomains in SPH computation

AU - Bian, Liang

AU - Wang, Xiaojun

AU - Zhang, Jie

AU - Zhao, Kai

PY - 2011/3

Y1 - 2011/3

N2 - Considering the fact that large deviatoric deformations are always localized in a small narrow region in hypervelocity impact problems, a method named subdomain computation for SPH(smoothed particle hydrodynamics) is developed. The entire computational domain is divided into several subdomains. In subdomains where large deformation is developed more particles are placed, and in subdomains where only small deformation is developed fewer particles are placed. Computational instability induced at interface of two subdomains is discussed and a method to handle the instability is proposed. Numerical simulations of a rod projectile penetrating into a thick target are carried out with the method and traditional SPH. It shows that computation accuracy as well as computation efficiency are improved.

AB - Considering the fact that large deviatoric deformations are always localized in a small narrow region in hypervelocity impact problems, a method named subdomain computation for SPH(smoothed particle hydrodynamics) is developed. The entire computational domain is divided into several subdomains. In subdomains where large deformation is developed more particles are placed, and in subdomains where only small deformation is developed fewer particles are placed. Computational instability induced at interface of two subdomains is discussed and a method to handle the instability is proposed. Numerical simulations of a rod projectile penetrating into a thick target are carried out with the method and traditional SPH. It shows that computation accuracy as well as computation efficiency are improved.

KW - Hypervelocity impact

KW - Solid mechanics

KW - SPH method

KW - Subdomain method

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M3 - Article

AN - SCOPUS:79955897579

SN - 1001-246X

VL - 28

SP - 207

EP - 212

JO - Jisuan Wuli/Chinese Journal of Computational Physics

JF - Jisuan Wuli/Chinese Journal of Computational Physics

IS - 2

ER -

Numerical simulation of hypervelocity impact with subdomains in SPH computation

Abstract

Scopus Subject Areas

Keywords

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