4.3 Article

A Multiscale Computational Formulation for Gradient Elasticity Problems of Heterogeneous Structures

Journal

Publisher

WORLD SCIENTIFIC PUBL CO PTE LTD
DOI: 10.1142/S0219876216500304

Keywords

Gradient elasticity; multiscale finite element method; heterogeneity; numerical base function; size effect

Funding

  1. National Natural Science Foundation of China [11402178, 11472196]
  2. Hubei Provincial Natural Science Foundation [2014CFB336]
  3. China Postdoctoral Science Foundation [2014M552078, 2015T80831]

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In this paper, a multiscale computational formulation is developed for modeling two- and three-dimensional gradient elasticity behaviors of heterogeneous structures. To capture the microscopic properties at the macroscopic level effectively, a numerical multiscale interpolation function of coarse element is constructed by employing the oversampling element technique based on the staggered gradient elasticity scheme. By virtue of these functions, the equivalent quantities of the coarse element could be obtained easily, resulting in that the material microscopic characteristics are reflected to the macroscopic scale. Consequently, the displacement field of the original boundary value problem could be calculated at the macroscopic level, and the corresponding microscopic gradient-enriched solutions could also be evaluated by adopting the downscaling computation on the sub-grids of each coarse element domain, which will reduce the computational cost significantly. Furthermore, several representative numerical experiments are performed to demonstrate the validity and efficiency of the proposed multiscale formulation.

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