Title :
Finite element modelling of the permittivity of lossy composite materials
Author :
Boudida, A. ; Beroual, A. ; Brosseau, C.
Author_Institution :
Centre de Genie Electr., Ecole Centrale de Lyon, Ecully, France
Abstract :
An ab initio numerical simulation model has been used to compute the complex effective dielectric constant of a two-component lossy composite material, in the quasistatic limit. A computational algorithm with a conventional finite element formulation solves Laplace´s equation for a spatially heterogeneous medium, using the field calculation package FLUX3D. In this way, different three-dimensional topological arrangements of the components were considered. The composite material consists of dense spheres of uniform size that are arranged in simple, body-centered and face centered cubic lattices. A comparison with McLachlan´s generalized effective medium equation is further provided over a wide range of conditions
Keywords :
Laplace equations; composite insulating materials; electrical conductivity; finite element analysis; permittivity; FLUX3D; Laplace´s equation; McLachlan´s generalized effective medium equation; complex effective dielectric constant; computational algorithm; cubic lattices; field calculation package; finite element modelling; lossy composite materials; numerical simulation model; permittivity; quasistatic limit; spatially heterogeneous medium; three-dimensional topological arrangements; Composite materials; Dielectric constant; Dielectric losses; Finite element methods; Laplace equations; Lattices; Numerical models; Numerical simulation; Packaging; Permittivity;
Conference_Titel :
Electrical Insulation and Dielectric Phenomena, 1997. IEEE 1997 Annual Report., Conference on
Conference_Location :
Minneapolis, MN
Print_ISBN :
0-7803-3851-0
DOI :
10.1109/CEIDP.1997.634556
