Transmission characteristics of cylindrical frequency selective fabrics with Jerusalem-shaped units

Abstract: Two kinds of complementary cylindrical frequency selective fabrics (CFSFs) with Jerusalem-shaped units were designed, constructed and analyzed in this paper. The models were built and simplified based on the thickness and equivalent electromagnetic parameters of the base fabrics. Considering the unit number difference of the models and bending directionality, the simulation processes were separately carried out using the waveguide method in HFSS software. Based on the preparation of preliminary planar prototyp… Show more

“…The most common electromagnetic shielding materials include metal, conductive polymers and carbon materials, which are usually non-soft or non-flexible materials, 11 involving the fabrication methods of metal depositing, coatings, embedding conductive sheets and photoetching. [12][13][14][15] Most FSS are using metal substrate owing to metal is the most conventional conductive materials. 16 However, the rigidness, uneasiness and high weight of metal limits its application for people wearing.…”

Electromagnetic shielding behaviors of planar frequency selective surface fabrics, with emphasis on decoupling analysis, lamination direction and tunable selective frequency

“…The most common electromagnetic shielding materials include metal, conductive polymers and carbon materials, which are usually non-soft or non-flexible materials, 11 involving the fabrication methods of metal depositing, coatings, embedding conductive sheets and photoetching. [12][13][14][15] Most FSS are using metal substrate owing to metal is the most conventional conductive materials. 16 However, the rigidness, uneasiness and high weight of metal limits its application for people wearing.…”

Electromagnetic shielding behaviors of planar frequency selective surface fabrics, with emphasis on decoupling analysis, lamination direction and tunable selective frequency