Finite cell method compared to h-version finite element method for elasto-plastic problems

A. Abedian; J. Parvizian; A. Düster; E. Rank

doi:10.1007/s10483-014-1861-9

Finite cell method compared to h-version finite element method for elasto-plastic problems

A. Abedian
, J. Parvizian
, A. Düster
, E. Rank

Engineering and Design

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

29 Scopus citations

Abstract

The finite cell method (FCM) combines the high-order finite element method (FEM) with the fictitious domain approach for the purpose of simple meshing. In the present study, the FCM is used to the Prandtl-Reuss flow theory of plasticity, and the results are compared with the h-version finite element method (h-FEM). The numerical results show that the FCM is more efficient compared to the h-FEM for elasto-plastic problems, although the mesh does not conform to the boundary. It is also demonstrated that the FCM performs well for elasto-plastic loading and unloading.

Original language	English
Pages (from-to)	1239-1248
Number of pages	10
Journal	Applied Mathematics and Mechanics (English Edition)
Volume	35
Issue number	10
DOIs	https://doi.org/10.1007/s10483-014-1861-9
State	Published - 3 Oct 2014

Keywords

Prandtl-Reuss
finite cell method (FCM)
h-version finite element method (h-FEM)
octree
quadtree

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10.1007/s10483-014-1861-9

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title = "Finite cell method compared to h-version finite element method for elasto-plastic problems",

abstract = "The finite cell method (FCM) combines the high-order finite element method (FEM) with the fictitious domain approach for the purpose of simple meshing. In the present study, the FCM is used to the Prandtl-Reuss flow theory of plasticity, and the results are compared with the h-version finite element method (h-FEM). The numerical results show that the FCM is more efficient compared to the h-FEM for elasto-plastic problems, although the mesh does not conform to the boundary. It is also demonstrated that the FCM performs well for elasto-plastic loading and unloading.",

keywords = "Prandtl-Reuss, finite cell method (FCM), h-version finite element method (h-FEM), octree, quadtree",

author = "A. Abedian and J. Parvizian and A. D{\"u}ster and E. Rank",

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T1 - Finite cell method compared to h-version finite element method for elasto-plastic problems

AU - Abedian, A.

AU - Parvizian, J.

AU - Düster, A.

AU - Rank, E.

PY - 2014/10/3

Y1 - 2014/10/3

N2 - The finite cell method (FCM) combines the high-order finite element method (FEM) with the fictitious domain approach for the purpose of simple meshing. In the present study, the FCM is used to the Prandtl-Reuss flow theory of plasticity, and the results are compared with the h-version finite element method (h-FEM). The numerical results show that the FCM is more efficient compared to the h-FEM for elasto-plastic problems, although the mesh does not conform to the boundary. It is also demonstrated that the FCM performs well for elasto-plastic loading and unloading.

AB - The finite cell method (FCM) combines the high-order finite element method (FEM) with the fictitious domain approach for the purpose of simple meshing. In the present study, the FCM is used to the Prandtl-Reuss flow theory of plasticity, and the results are compared with the h-version finite element method (h-FEM). The numerical results show that the FCM is more efficient compared to the h-FEM for elasto-plastic problems, although the mesh does not conform to the boundary. It is also demonstrated that the FCM performs well for elasto-plastic loading and unloading.

KW - Prandtl-Reuss

KW - finite cell method (FCM)

KW - h-version finite element method (h-FEM)

KW - octree

KW - quadtree

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JO - Applied Mathematics and Mechanics (English Edition)

JF - Applied Mathematics and Mechanics (English Edition)

IS - 10

ER -

Finite cell method compared to h-version finite element method for elasto-plastic problems

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