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Indexed by:期刊论文

Date of Publication:2010-12-01

Journal:ACTA MECHANICA SINICA

Included Journals:SCIE、EI、ISTIC、CSCD、Scopus

Volume:26

Issue:6

Page Number:899-920

ISSN No.:0567-7718

Key Words:Extended multiscale finite element method; Heterogeneous material; Base function; Downscaling computation

Abstract:An extended multiscale finite element method (EMsFEM) is developed for solving the mechanical problems of heterogeneous materials in elasticity. The underlying idea of the method is to construct numerically the multiscale base functions to capture the small-scale features of the coarse elements in the multiscale finite element analysis. On the basis of our existing work for periodic truss materials, the construction methods of the base functions for continuum heterogeneous materials are systematically introduced. Numerical experiments show that the choice of boundary conditions for the construction of the base functions has a big influence on the accuracy of the multiscale solutions, thus, different kinds of boundary conditions are proposed. The efficiency and accuracy of the developed method are validated and the results with different boundary conditions are verified through extensive numerical examples with both periodic and random heterogeneous micro-structures. Also, a consistency test of the method is performed numerically. The results show that the EMsFEM can effectively obtain the macro response of the heterogeneous structures as well as the response in micro-scale, especially under the periodic boundary conditions.