Numerical homogenization of polymer/clay nanocomposites by the boundary element method

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Authors

  • J. Ptaszny Department of Strength of Materials and Computational Mechanics, Silesian University of Technology, Poland
  • P. Fedeliński Department of Strength of Materials and Computational Mechanics, Silesian University of Technology, Poland

Abstract

The paper deals with the numerical homogenization of polymer/clay nanocomposites by using the boundary element method (BEM). The reinforcement has the form of stacks of parallel clay sheets modelled by effective isotropic particles. Two-dimensional representative volume elements (RVEs), containing randomly distributed parallel rectangular particles, are modelled and five plane-strain elastic constants of the orthotropic composite are analysed: two Young’s moduli, shear modulus and two Poisson’s ratios. The results are compared to experimental data, finite element method (FEM) results, and analytical models as well. The positive-definiteness and symmetry of the apparent compliance matrix are verified. All the comparisons and tests confirm validity of the applied method.

Keywords:

boundary element method, effective particle, elastic constants, homogenization, nanocomposites