2015
DOI: 10.4028/www.scientific.net/amm.799-800.1370
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Design of Multi-Layer Radar Absorbing Coating and Transparent Shielding Film for RCS Reduction of Complex Targets

Abstract: A broadband multi-layer radar absorbing coating (RAC) and transparent shielding film (TSF) operating within the frequency range of 7 to 12 GHz are designed and fabricated for the purpose of a radar cross section (RCS) reduction of complex naval targets such as submarines and ships. The proposed RAC consists of three layers, a shop primer, a main absorbing material, and epoxy resin paint. In addition, a TSF was fabricated by coating an ITO/Ag/ITO multilayer on a polyethylene terephthalate (PET) substrate using … Show more

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“…In diverse areas of microwave and millimeter wave's practical applications, it is required to reduce electromagnetic waves reflections from metallic surfaces or for shielding. In these situations, radar absorbing materials made from wideband composite materials coated on metal plates with one layer (or layers) can be used to solve these problems [1]- [5]. These materials can be designed with specific values of both relative complex permittivity (εr) and relative complex permeability (µr) such that they can effectively absorb electromagnetic wave energy either over broadband or at discrete points of frequency band.…”
Section: Introductionmentioning
confidence: 99%
“…In diverse areas of microwave and millimeter wave's practical applications, it is required to reduce electromagnetic waves reflections from metallic surfaces or for shielding. In these situations, radar absorbing materials made from wideband composite materials coated on metal plates with one layer (or layers) can be used to solve these problems [1]- [5]. These materials can be designed with specific values of both relative complex permittivity (εr) and relative complex permeability (µr) such that they can effectively absorb electromagnetic wave energy either over broadband or at discrete points of frequency band.…”
Section: Introductionmentioning
confidence: 99%