Numerical simulation of the elastic-plastic dynamic response of a slender kinetic energy penetrator

Ai Guo Pi; Feng Lei Huang

Numerical simulation of the elastic-plastic dynamic response of a slender kinetic energy penetrator

Ai Guo Pi^*, Feng Lei Huang

^*Corresponding author for this work

School of Mechatronical Engineering

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

1 Citation (Scopus)

Abstract

In order to study the dynamic response of a projectile during penetration, a new way within the framework of finite element method, based on Lagrange eight-node constant stress hexahedral continuum elements in LS-DYNA, is explored to get the dynamic bending moment, axial force and shear force along the penetrator cross section. The typical distortion mode of a single plastic hinge failure mode coupling axial force with bending moment on oblique penetration are studied. It is a conservative condition for kinetic energy penetrator (KEP) design to analyse the inertia load on normal penetration, and to combine axial load and lateral load on linearity interaction surface.

Original language	English
Pages (from-to)	666-670
Number of pages	5
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	27
Issue number	8
Publication status	Published - Aug 2007

Keywords

Kinetic energy penetrator (KEP)
Penetration
Plastic hinge
Structural response

Cite this

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title = "Numerical simulation of the elastic-plastic dynamic response of a slender kinetic energy penetrator",

abstract = "In order to study the dynamic response of a projectile during penetration, a new way within the framework of finite element method, based on Lagrange eight-node constant stress hexahedral continuum elements in LS-DYNA, is explored to get the dynamic bending moment, axial force and shear force along the penetrator cross section. The typical distortion mode of a single plastic hinge failure mode coupling axial force with bending moment on oblique penetration are studied. It is a conservative condition for kinetic energy penetrator (KEP) design to analyse the inertia load on normal penetration, and to combine axial load and lateral load on linearity interaction surface.",

keywords = "Kinetic energy penetrator (KEP), Penetration, Plastic hinge, Structural response",

author = "Pi, {Ai Guo} and Huang, {Feng Lei}",

year = "2007",

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AU - Pi, Ai Guo

AU - Huang, Feng Lei

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N2 - In order to study the dynamic response of a projectile during penetration, a new way within the framework of finite element method, based on Lagrange eight-node constant stress hexahedral continuum elements in LS-DYNA, is explored to get the dynamic bending moment, axial force and shear force along the penetrator cross section. The typical distortion mode of a single plastic hinge failure mode coupling axial force with bending moment on oblique penetration are studied. It is a conservative condition for kinetic energy penetrator (KEP) design to analyse the inertia load on normal penetration, and to combine axial load and lateral load on linearity interaction surface.

AB - In order to study the dynamic response of a projectile during penetration, a new way within the framework of finite element method, based on Lagrange eight-node constant stress hexahedral continuum elements in LS-DYNA, is explored to get the dynamic bending moment, axial force and shear force along the penetrator cross section. The typical distortion mode of a single plastic hinge failure mode coupling axial force with bending moment on oblique penetration are studied. It is a conservative condition for kinetic energy penetrator (KEP) design to analyse the inertia load on normal penetration, and to combine axial load and lateral load on linearity interaction surface.

KW - Kinetic energy penetrator (KEP)

KW - Penetration

KW - Plastic hinge

KW - Structural response

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M3 - Article

AN - SCOPUS:34648817221

SN - 1001-0645

VL - 27

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EP - 670

JO - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

IS - 8

ER -

Numerical simulation of the elastic-plastic dynamic response of a slender kinetic energy penetrator

Abstract

Keywords

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