Easy-to-Design-and-Manufacture Frequency Selective Surfaces for Conformal Applications

A bendable frequency selective surface (FSS) is proposed in this letter; it is based on short carbon fibers embedded into an epoxy resin whose characteristics are set in order to provide the required mechanical flexibility. The frequency response of the FSS is of band-stop type due to the half-wavel...

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Bibliographic Details
Published in:IEEE antennas and wireless propagation letters 2021-05, Vol.20 (5), p.753-757
Main Authors: Nisanci, Muhammet Hilmi, de Paulis, Francesco
Format: Article
Language:English
Subjects:
Aluminum
Bend radius
Carbon
Carbon fiber reinforced plastics
Composite materials
conformal frequency selective surface (FSS)
Dipoles
electromagnetic (EM) filters
Epoxy resins
Frequency response
Frequency selective surfaces
frequency selective surfaces (FSSs)
Optical fiber cables
Optical fiber networks
Optical fiber polarization
Parabolic reflectors
Permittivity
Radomes
Reflectors
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Summary:A bendable frequency selective surface (FSS) is proposed in this letter; it is based on short carbon fibers embedded into an epoxy resin whose characteristics are set in order to provide the required mechanical flexibility. The frequency response of the FSS is of band-stop type due to the half-wavelength resonance of the used short dipoles. The FSS design and the manufacturing process are clearly highlighted to demonstrate the advantages of the proposed FSS in terms of costs, ease to design and build the FSS, and accuracy of the obtained stopband response. Both aluminum and carbon materials are considered for the fiber as a mean for achieving a mechanically reinforced structure; the effects of both materials from an electromagnetic propagation point of view are discussed. Finally, the proposed FSSs with different fiber materials and bending radii are manufactured and experimentally tested in a free-space setup to verify the design. The proposed FSS is mainly suitable for applications on parabolic reflectors and curved radomes.
ISSN:1536-1225
1548-5757
DOI:10.1109/LAWP.2021.3061745