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Indexed by:期刊论文

Date of Publication:2014-04-01

Journal:COMPUTATIONAL MECHANICS

Included Journals:SCIE、EI、Scopus

Volume:53

Issue:4

Page Number:659-685

ISSN No.:0178-7675

Key Words:Extended multiscale finite element method (EMsFEM); Numerical base function; Heterogeneous material; Algorithm complexity

Abstract:Extended multiscale finite element method (EMsFEM) has been proved to be an efficient method for the mechanical analysis of heterogeneous materials. The key factor for efficiency and accuracy of EMsFEM is the numerical base functions (NBFs). The paper summarizes the general method for constructing NBFs and proposes a generalized isoparametric interpolation based on the rigid displacement properties (RDPs) of NBFs. We prove that the NBFs constructed by linear, periodic and rotational angle boundary conditions satisfy the RDPs, which is independent with the shape and material properties of unit cells. The properties of NBFs for oversampling technique are also comprehensively discussed. The algorithm complexity is discussed in theoretical and numerical aspects, which concludes that the computation quantity of EMsFEM is much smaller than the direct solutions. The algorithm is validated by linear analysis of the materials with random impurities and holes and the efficiency is improved further by parallel computing.