The algorithm of automatic local mesh subdivision and its application to finite-element analysis of a large deformation forming process

D. Liu; Z. J. Luo; M. X. Gu

doi:10.1016/S0924-0136(98)00056-9

The algorithm of automatic local mesh subdivision and its application to finite-element analysis of a large deformation forming process

D. Liu, Z. J. Luo, M. X. Gu

School of Materials Sience and Engineering

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

4 Scopus citations

Abstract

An algorithm of the automatic local mesh subdivision (ALMS) is proposed as a weak remeshing technique for the finite-element analysis of large deformation forming processes. In order to verify the effectiveness of the proposed technique, a backward extrusion process of IN718 forging was simulated by incorporating the ALMS into the viscoplastic finite-element method (FEM). The numerical results show that the ALMS is effective in eliminating the interference of the workpiece with the dies and in reducing the frequency of global remeshing. Moreover, combining the ALMS with the global remeshing technique will increase the accuracy and the efficiency of the finite-element simulation.

Original language	English
Pages (from-to)	164-169
Number of pages	6
Journal	Journal of Materials Processing Technology
Volume	83
Issue number	1-3
DOIs	https://doi.org/10.1016/S0924-0136(98)00056-9
State	Published - 1 Nov 1998

Keywords

Automatic local mesh subdivision
Finite-element method
Large deformation forming processes

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10.1016/S0924-0136(98)00056-9

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title = "The algorithm of automatic local mesh subdivision and its application to finite-element analysis of a large deformation forming process",

abstract = "An algorithm of the automatic local mesh subdivision (ALMS) is proposed as a weak remeshing technique for the finite-element analysis of large deformation forming processes. In order to verify the effectiveness of the proposed technique, a backward extrusion process of IN718 forging was simulated by incorporating the ALMS into the viscoplastic finite-element method (FEM). The numerical results show that the ALMS is effective in eliminating the interference of the workpiece with the dies and in reducing the frequency of global remeshing. Moreover, combining the ALMS with the global remeshing technique will increase the accuracy and the efficiency of the finite-element simulation.",

keywords = "Automatic local mesh subdivision, Finite-element method, Large deformation forming processes",

author = "D. Liu and Luo, {Z. J.} and Gu, {M. X.}",

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T1 - The algorithm of automatic local mesh subdivision and its application to finite-element analysis of a large deformation forming process

AU - Liu, D.

AU - Luo, Z. J.

AU - Gu, M. X.

PY - 1998/11/1

Y1 - 1998/11/1

N2 - An algorithm of the automatic local mesh subdivision (ALMS) is proposed as a weak remeshing technique for the finite-element analysis of large deformation forming processes. In order to verify the effectiveness of the proposed technique, a backward extrusion process of IN718 forging was simulated by incorporating the ALMS into the viscoplastic finite-element method (FEM). The numerical results show that the ALMS is effective in eliminating the interference of the workpiece with the dies and in reducing the frequency of global remeshing. Moreover, combining the ALMS with the global remeshing technique will increase the accuracy and the efficiency of the finite-element simulation.

AB - An algorithm of the automatic local mesh subdivision (ALMS) is proposed as a weak remeshing technique for the finite-element analysis of large deformation forming processes. In order to verify the effectiveness of the proposed technique, a backward extrusion process of IN718 forging was simulated by incorporating the ALMS into the viscoplastic finite-element method (FEM). The numerical results show that the ALMS is effective in eliminating the interference of the workpiece with the dies and in reducing the frequency of global remeshing. Moreover, combining the ALMS with the global remeshing technique will increase the accuracy and the efficiency of the finite-element simulation.

KW - Automatic local mesh subdivision

KW - Finite-element method

KW - Large deformation forming processes

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SP - 164

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JO - Journal of Materials Processing Technology

JF - Journal of Materials Processing Technology

IS - 1-3

ER -

The algorithm of automatic local mesh subdivision and its application to finite-element analysis of a large deformation forming process

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Keywords

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