Local effective thermoelastic properties of graded random structure matrix composites |
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Authors: | V. A. Buryachenko F. G. Rammerstorfer |
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Affiliation: | (1) Air Force Research Laboratory, Materials Directorate, AFRL/MLBC, Wright-Patterson AFB, OH 45433-7750, USA, US;(2) Institute of Lightweight Structures and Aerospace Engineering, TU Vienna, A-1040 Vienna, Austria, AT |
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Abstract: | Summary We consider a linearly thermoelastic composite medium, which consists of a homogeneous matrix containing a statistically inhomogeneous random set of ellipsoidal uncoated or coated inclusions, where the concentration of the inclusions is a function of the coordinates (functionally graded material). Effective properties, such as compliance and thermal expansion coefficient, as well as first statistical moments of stresses in the components are estimated for the general case of inhomogeneity of the thermoelastic inclusion properties. The micromechanical approach is based on the Green function technique as well as on the generalization of the multiparticle effective field method (MEFM), previously proposed for the research of statistically homogeneous random structure composites. The hypothesis of effective field homogeneity near the inclusions is used; nonlocal effects of overall constitutive relations are not considered. Nonlocal dependences of local effective thermoelastic properties as well as those of conditional averages of the stresses in the components on the concentration of the inclusions are demonstrated. Received 11 November 1999; accepted for publication 4 May 2000 |
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Keywords: | microstructure inhomogeneity elasticity functionally graded material |
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