Non-local homogenized limits for composite media with highly anisotropic periodic fibres

K. D. Cherednichenko; V. P. Smyshlyaev; V. V. Zhikov

doi:10.1017/S0308210500004455

Abstract

We consider a homogenization problem for highly anisotropic conducting fibres embedded into an isotropic matrix. For a ‘double porosity’-type scaling in the expression of high contrast between the conductivity along the fibres and the conductivities in the transverse directions, we prove the homogenization theorem and derive two-scale homogenized equations using a version of the method of two-scale convergence, supplemented in the case when the spectral parameter λ = 0 by a newly derived variant of high-contrast Poincaré-type inequality. Further elimination of the 'rapid' component from the two-scale limit equations results in a non-local (convolution-type integro-differential) equation for the slowly varying part in the matrix, with the non-local kernel explicitly related to the Green function on the fibre. The regularity of the solution to the non-local homogenized equation is proved.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Cherednichenko, K. D. and Guenneau, S. 2007. Bloch-wave homogenization for spectral asymptotic analysis of the periodic Maxwell operator. Waves in Random and Complex Media, Vol. 17, Issue. 4, p. 627.

Guenneau, S. Zolla, F. and Nicolet, A. 2007. Homogenization of 3D finite photonic crystals with heterogeneous permittivity and permeability. Waves in Random and Complex Media, Vol. 17, Issue. 4, p. 653.

Milton, Graeme W 2007. New metamaterials with macroscopic behavior outside that of continuum elastodynamics. New Journal of Physics, Vol. 9, Issue. 10, p. 359.

Andrianov, Igor V Bolshakov, Vladimir I Danishevs'kyy, Vladyslav V and Weichert, Dieter 2008. Higher order asymptotic homogenization and wave propagation in periodic composite materials. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 464, Issue. 2093, p. 1181.

Kohn, Robert V. and Shipman, Stephen P. 2008. Magnetism and Homogenization of Microresonators. Multiscale Modeling & Simulation, Vol. 7, Issue. 1, p. 62.

Farhat, Mohamed Guenneau, Sébastien Enoch, Stefan Movchan, Alexander Zolla, Frédéric and Nicolet, André 2008. A homogenization route towards square cylindrical acoustic cloaks. New Journal of Physics, Vol. 10, Issue. 11, p. 115030.

Milton, Graeme W and Seppecher, Pierre 2008. Realizable response matrices of multi-terminal electrical, acoustic and elastodynamic networks at a given frequency. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, Vol. 464, Issue. 2092, p. 967.

Cherdantsev, Mikhail 2009. Spectral Convergence for High‐Contrast Elliptic Periodic Problems with a Defect Via Homogenization. Mathematika, Vol. 55, Issue. 1-2, p. 29.

Smyshlyaev, Valery P. 2009. Propagation and localization of elastic waves in highly anisotropic periodic composites via two-scale homogenization. Mechanics of Materials, Vol. 41, Issue. 4, p. 434.

ABDESSAMAD, ZOUHAIR KOSTIN, ILYA PANASENKO, GRIGORY and SMYSHLYAEV, VALERY P. 2009. MEMORY EFFECT IN HOMOGENIZATION OF A VISCOELASTIC KELVIN–VOIGT MODEL WITH TIME-DEPENDENT COEFFICIENTS. Mathematical Models and Methods in Applied Sciences, Vol. 19, Issue. 09, p. 1603.

Kalamkarov, Alexander L. Andrianov, Igor V. and Danishevs’kyy, Vladyslav V. 2009. Asymptotic Homogenization of Composite Materials and Structures. Applied Mechanics Reviews, Vol. 62, Issue. 3,

Guenneau, Sébastien and Ramakrishna, S. Anantha 2009. Negative refractive index, perfect lenses and checkerboards: Trapping and imaging effects in folded optical spaces . Comptes Rendus. Physique, Vol. 10, Issue. 5, p. 352.

Boughammoura, Ahmed 2009. Homogenization of a degenerate parabolic problem in a highly heterogeneous medium with highly anisotropic fibers. Mathematical and Computer Modelling, Vol. 49, Issue. 1-2, p. 66.

Farhat, M. Guenneau, S. Enoch, S. and Movchan, A. B. 2009. Negative refraction, surface modes, and superlensing effect via homogenization near resonances for a finite array of split-ring resonators. Physical Review E, Vol. 80, Issue. 4,

Mattiucci, Nadia D’Aguanno, Giuseppe Akozbek, Neset Scalora, Michael and Bloemer, Mark J. 2010. Homogenization procedure for a metamaterial and local violation of the second principle of thermodynamics. Optics Communications, Vol. 283, Issue. 8, p. 1613.

Bouchitté, Guy and Schweizer, Ben 2010. Homogenization of Maxwell's Equations in a Split Ring Geometry. Multiscale Modeling & Simulation, Vol. 8, Issue. 3, p. 717.

Bellieud, Michel 2010. Torsion Effects in Elastic Composites with High Contrast. SIAM Journal on Mathematical Analysis, Vol. 41, Issue. 6, p. 2514.

Cherednichenko, K. D. 2011. Some analogues of the double-porositymodels and the associated effect of micro-resonance. Journal of Mathematical Sciences, Vol. 176, Issue. 6, p. 818.

Guenneau, Sébastien McPhedran, Ross C Enoch, Stefan Movchan, Alexander B Farhat, Mohamed and Nicorovici, Nicolae-Alexandru P 2011. The colours of cloaks. Journal of Optics, Vol. 13, Issue. 2, p. 024014.

Andrianov, I.V. Danishevs'kyy, V.V. Topol, H. and Weichert, D. 2011. Homogenization of a 1D nonlinear dynamical problem for periodic composites. ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, Vol. 91, Issue. 6, p. 523.

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Non-local homogenized limits for composite media with highly anisotropic periodic fibres

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Non-local homogenized limits for composite media with highly anisotropic periodic fibres

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