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NANOSYSTEMS: PHYSICS, CHEMISTRY, MATHEMATICS, 2011, 2 (2), P. 71–75
SIMULATION OF ELASTIC AND PLASTIC PROPERTIES
OF POLYMERIC COMPOSITES WITH SILICATE
LAMELLAR NANOFILLER

O. K. Garishin(1), S.N. Lebedev(1)
(1)Institute of Continuous Media Mechanics, Perm, Russia
gar@icmm.ru

Polymer/silicate nanocomposites mechanical behaviour under finite deformation is investigated at structural level. Outcomes of computer simulation are presented. Nano-filler particles are modeled represented as sheaves from the several parallel ultrathin silicate plates parted by beds of polymer (tactoids), a matrix – as a nonlinear-elastic or elastoplastic material.
The stress-strain state round separate inclusion in dependence on its orientation to a exterior load direction and properties of a matrix is researched. The problem of the macro-homogeneous elongation of a periodic cell in the form of the rectangular field with a tactoid at centre has been solved for this purpose. Conditions at which afiller particle losses of a bending stability happens in the course of macroelongation of material are defined.
The estimate of nanocomposite macro mechanical behaviour depending on properties of a matrix, filler
concentration and orientation of corpuscles is spent on the basis of the gained solutions. Appropriate dependencies between macro and micro-structural parameters associations are built.
Keywords: elastic and plastic properties, polymeric composites, silicate lamellar nanofiller.

UDC 539.3

PACS 46.25.Cc, 68.35.Rh
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