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Advisor(s)
Abstract(s)
Dual-phase functionally graded materials are a particular type of composite materials whose properties are tailored to vary continuously, depending on its two constituent's composition distribution, and which use is increasing on the most diverse application fields. These materials are known to provide superior thermal and mechanical performances when compared to the traditional laminated composites, exactly because of this continuous properties variation characteristic, which enables among other advantages smoother stresses distribution profile. In this paper we study the influence of different homogenization schemes, namely the schemes due to Voigt, Hashin-Shtrikman and Mod-Tanaka, which can be used to obtain bounds estimates for the material properties of particulate composite structures. To achieve this goal we also use a set of finite element models based on higher order shear deformation theories and also on first order theory. From the studies carried out, on linear static analyses and on free vibration analyses, it is shown that the bounds estimates are as important as the deformation kinematics basis assumed to analyse these types of multifunctional structures. Concerning to the homogenization schemes studied, it is shown that Mori-Tanaka and Hashin-Shtrikman estimates lead to less conservative results when compared to Voigt rule of mixtures.
Description
Keywords
Functionally Graded Materials Homogenization Schemes Linear Static Analysis Free Vibration Analysis Higher Order Shear Deformation Models High-order theory Plate deformation Prediction Shells Beams
Citation
LOJA, M. A. R.; BARBOSA, J. L.; SOARES, C. M. M. - A study on the modeling of sandwich functionally graded particulate composites. Composite Structures. ISSN: 0263-8223. Vol. 94, nr. 7 (2012), pp. 2209-2217
Publisher
Elsevier SCI LTD