Numerical simulation of the rheological properties of granular composites by using a structural approach

Autor: L. L. Kozhevnikova, L. A. Golotina, T. B. Koshkina
Rok vydání: 2008
Předmět:
Zdroj: Mechanics of Composite Materials. 44:633-640
ISSN: 1573-8922
0191-5665
Popis: Composites with an elastomeric matrix containing rigid particles of diameter 10–1000 µm are studied. One of possible mechanisms of the rheological behavior of such filled systems, related to the origination and growth of vacuoles near the rigid inclusions in a viscous matrix, is considered. For simulating the mechanism of formation of rheological properties of the filled elastomers, we use a structural cell in the form of an elastomeric cylinder, whose height and diameter are equal in magnitude, with a rigid spherical inclusion at its center. Deformation of the cells is examined with the observance of boundary conditions providing the preservation of their close packing. The inclusion is assumed to be rigid, and the matrix properties are described by equations of the linear hereditary viscoelasticity theory. The formation of vacuoles is described by using the approach suggesting that an initial debonding begins to propagate when the energy accumulated in the extended matrix reaches a value sufficient to create a new interface. The heterogeneity of the composite is simulated by taking into account the variability of the local filler concentration. Creep curves obtained for composite cells with different content of the solid phase are presented. Comparisons between the numerical and experimental results show a satisfactory agreement.
Databáze: OpenAIRE