Abstract
Studying of mechanical properties of brittle heterogeneous materials with different structural parameters, in particular value of porosity and volume of inclusions is very important for both fundamental science and practical applications. Therefore, in this paper a multiscale computer model of mechanical behaviour of ceramic composites with different porosity and filler-containing pore fraction under shear loading was proposed. The model was developed in the framework of movable cellular automaton method. On the basis of numerical calculations an analytical evaluation for the dependence of shear strength and elastic modulus of the material on its total porosity and fraction of pores containing filler was proposed.
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