McCartney, L N (2010) Maxwell's far-field methodology predicting elastic properties of multi-phase composites reinforced with aligned transverse isotropic spheroids. Philos. Mag., 90 (31-32). pp. 4175-4207.
Full text not available from this repository.Abstract
Maxwell's methodology, developed to estimate the effective electrical conductivity of isotropic particulate composites, is used in conjunction with a far-field elasticity result of Eshelby to derive closed-form formulae for the effective transverse isotropic elastic properties of multi-phase composites comprising aligned transverse isotropic spheroidal inclusions embedded in an isotropic matrix. Very simple expressions are derived for the effective shear moduli. Closed-form analytical results for all elastic constants are shown numerically to be identical to more complex results derived by Qui and Weng on applying Mori-Tanaka theory to spheroidal reinforcements. This is a contradictory result as Maxwell's approach neglects inclusion interactions while Mori-Tanaka theory is designed, to some extent, to take such interactions into account. The rational conclusion is that inclusion interaction effects for volume fractions of practical relevance do not affect the far-field to any significant degree so that Maxwell's methodology, when combined with Eshelby's analysis, has much wider applicability than expected.
Results for isotropic composites having distributions of spherical particles, and transverse isotropic composites having distributions of aligned fibres, correspond with known expressions, and can coincide with, or lie between, variational bounds for all volume fractions. A new simple expression having a `mixtures' structure is obtained for the axial modulus of multi-phase fibre reinforced composites that reduces to concentric cylinders estimates when there are just two phases. To demonstrate their accuracy, property results for fibre reinforced composites are compared with accurate numerical results in the literature for two-phase composites having fibre volume fractions in the range 0 to 0.7 .
Item Type: | Article |
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Keywords: | Maxwell methodology, Eshelby analysis, elastic properties, particulate composites, spheroidal inclusions, multi-phase |
Subjects: | Advanced Materials Advanced Materials > Composites |
Last Modified: | 02 Feb 2018 13:15 |
URI: | http://eprintspublications.npl.co.uk/id/eprint/4776 |
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