Adaptive numerical integration of broken finite cells based on moment fitting applied to finite strain problems

Hubrich, Simeon; Düster, Alexander

Adaptive numerical integration of broken finite cells based on moment fitting applied to finite strain problems

Publikationstyp

Conference Paper

Date Issued

2018-12-17

Sprache

English

Author(s)

Hubrich, Simeon

Düster, Alexander

Institut

Konstruktion und Festigkeit von Schiffen M-10

TORE-URI

http://hdl.handle.net/11420/4843

First published in

Proceedings in applied mathematics and mechanics

Volume

18

Issue

1

Article Number

e201800089

Citation

Proceedings in applied mathematics and mechanics : PAMM 18 (1): e201800089 (2018)

Contribution to Conference

89th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM 2018)

Publisher DOI

10.1002/pamm.201800089

Publisher

Wiley-VCH

In the finite cell method (FCM) which is based on the fictitious domain approach the numerical integration of broken cells represents a major challenge. Commonly, an adaptive integration scheme is used which, usually, results in a large number of integration points and thus increases the numerical effort, especially for nonlinear applications. To reduce the number of integration points, we present an adaptive scheme which is based on moment fitting. Thereby, we introduce an approach based on Lagrange polynomials which avoids the necessity of solving the moment fitting equation system. We study the performance of this integration method considering two numerical examples for finite strain problems of the FCM.

DDC Class

510: Mathematik

530: Physik

620: Ingenieurwissenschaften

Funding(s)

SPP 1748: Teilprojekt "High-Order Immersed-Boundary-Methoden in der Festkörpermechanik für generativ gefertigte Strukturen"

Options

Adaptive numerical integration of broken finite cells based on moment fitting applied to finite strain problems