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Computational Mechanics
Erschienen in: Computational Mechanics 6/2017

18.02.2017 | Original Paper

Three embedded techniques for finite element heat flow problem with embedded discontinuities

verfasst von: M. Davari, R. Rossi, P. Dadvand

Erschienen in: Computational Mechanics | Ausgabe 6/2017

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Abstract

The present paper explores the solution of a heat conduction problem considering discontinuities embedded within the mesh and aligned at arbitrary angles with respect to the mesh edges. Three alternative approaches are proposed as solutions to the problem. The difference between these approaches compared to alternatives, such as the eXtended Finite Element Method (X-FEM), is that the current proposal attempts to preserve the global matrix graph in order to improve performance. The first two alternatives comprise an enrichment of the Finite Element (FE) space obtained through the addition of some new local degrees of freedom to allow capturing discontinuities within the element. The new degrees of freedom are statically condensed prior to assembly, so that the graph of the final system is not changed. The third approach is based on the use of modified FE-shape functions that substitute the standard ones on the cut elements. The imposition of both Neumann and Dirichlet boundary conditions is considered at the embedded interface. The results of all the proposed methods are then compared with a reference solution obtained using the standard FE on a mesh containing the actual discontinuity.
Vorheriger Artikel Phase field modeling of brittle fracture for enhanced assumed strain shells at large deformations: formulation and finite element implementation
Nächster Artikel Cross-sectional mapping for refined beam elements with applications to shell-like structures

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Metadaten
Titel
Three embedded techniques for finite element heat flow problem with embedded discontinuities
verfasst von
M. Davari
R. Rossi
P. Dadvand
Publikationsdatum
18.02.2017
Verlag
Springer Berlin Heidelberg
Erschienen in
Computational Mechanics / Ausgabe 6/2017
Print ISSN: 0178-7675
Elektronische ISSN: 1432-0924
DOI
https://doi.org/10.1007/s00466-017-1382-7

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