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Computational Mechanics

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01-08-2014 | Original Paper

Quadratically consistent nodal integration for second order meshfree Galerkin methods

Authors: Qinglin Duan, Bingbing Wang, Xin Gao, Xikui Li

Published in: Computational Mechanics | Issue 2/2014

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Abstract

Robust and efficient integration of the Galerkin weak form only at the approximation nodes for second order meshfree Galerkin methods is proposed. The starting point of the method is the Hu-Washizu variational principle. The orthogonality condition between stress and strain difference is satisfied by correcting nodal derivatives. The corrected nodal derivatives are essentially linear functions which can exactly reproduce linear strain fields. With the known area moments, the stiffness matrix resulting from these corrected nodal derivatives can be exactly evaluated using only the nodes as quadrature points. The proposed method can exactly pass the quadratic patch test and therefore is named as quadratically consistent nodal integration. In contrast, the stabilized conforming nodal integration (SCNI) which prevails in the nodal integrations for meshfree Galerkin methods fails to pass the quadratic patch test. Better accuracy, convergence, efficiency and stability than SCNI are demonstrated by several elastostatic and elastodynamic examples.

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Title: Quadratically consistent nodal integration for second order meshfree Galerkin methods
Authors: Qinglin Duan
Bingbing Wang
Xin Gao
Xikui Li
Publication date: 01-08-2014
Publisher: Springer Berlin Heidelberg
Published in: Computational Mechanics / Issue 2/2014
Print ISSN: 0178-7675
Electronic ISSN: 1432-0924
DOI: https://doi.org/10.1007/s00466-014-0989-1

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