Title :
Design of Homogeneous and Composite Materials From Shielding Effectiveness Specifications
Author :
de Paulis, Francesco ; Nisanci, M.H. ; Orlandi, Antonio ; Koledintseva, Marina Y. ; Drewniak, James L.
Author_Institution :
Dept. of Ind. & Inf. Eng. & Econ., Univ. of L´Aquila, L´Aquila, Italy
Abstract :
A procedure to synthesize a suitable biphasic composite material from the given Shielding effectiveness (SE) specifications is proposed herein. In particular, this paper presents an analytic approach for calculating parameters of a Debye-like equivalent homogeneous material, which meets the SE requirements in given frequency range. Establishing the relationship of the SE with the intrinsic material and morphological properties of a composite will make it possible to effectively find an equivalent homogeneous lossy Debye-like material model, starting from the given SE frequency characteristic. The Maxwell Garnett mixing rule is used to synthesize a composite made by aligned cylindrical inclusions. A few examples of how this procedure works are presented; validation by time domain numerical simulations is provided.
Keywords :
composite materials; electromagnetic shielding; permittivity; time-domain analysis; Debye-like equivalent homogeneous material; Maxwell Garnett mixing rule; SE frequency characteristic; SE requirements; SE specifications; aligned cylindrical inclusions; biphasic composite material; frequency range; intrinsic material; morphological properties; shielding effectiveness specifications; time domain numerical simulations; Composite materials; Equations; Market research; Mathematical model; Permittivity; Resonant frequency; Composite materials; Debye model; frequency-dependent permittivity; lossy material; shielding effectiveness;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2013.2280463
