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Title Fracture toughness modelling of polymers filled with inhomogeneously distributed particles
Date 01.07.2017
Number 51725
Abstract Filler particles are not homogeneously distributed in real composites consisting of polymer matrices and rigid spherical particles. In the presence of a crack, high multiaxial stresses develop in the material which are a function of the distance from the crack tip. This variation effects the stress concentration in the periphery of the inhomogeneously distributed particles. For a certain stress level closer particles are able to debond from the matrix while particle pairs with larger centre to centre distances may still be bonded to the matrix. Based on a two particle model, the debonding and matrix yielding energies were calculated. Subsequent integration over the local composite deformation results in the fracture toughness of such composites. Randomly distributed particles provide a lower fracture toughness in modelling as compared to inhomogeneoulsy distributed particles in the composite.
URL http://dx.doi.org/10.3144/expresspolymlett.2017.52
Publisher eXPRESS Polymer Letters
Identifier 0
Citation eXPRESS Polymer Letters 7 (2017) 545-554
DOI http://dx.doi.org/10.3144/expresspolymlett.2017.52
Authors Lauke, B.
Tags polymer composites fracture toughness modeling and simulation

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