L. Surdu, C. Stancu, E. Visileanu, I. Radulescu, M. Badic, Cristian Cristian, B. Mitu
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FABRICS FOR BUILDTECH ELECTROMAGNETIC SHIELDS
BASED ON MAGNETRON SPUTTERING DEPOSITION
Electromagnetic radiation may cause interference for the proper functioning of electronic
equipment and risks for human’s health. Protection against the hazards of EM radiation on various
frequencies may be achieved by flexible textile fabrics with electrical conductive properties. A novel
technology for imparting conductive properties to fabrics is utilizing magnetron sputtering of
metallic thin films. This research focuses on plasma coated fabrics with three types of metallic
layers: Nick el, Chrome and Titanium. PES woven fabrics of 88 g/m2 were coated by plasma
magnetron sputtering with these three types of metals. Coating was performed on both sides of the
fabric with a thickness of 400 nm. SEM images provedmetal deposition on the fiber surface, while
atomic absorption tests showed the content of deposited metal. Linear resistance of coated fabrics
was measured with Ohmmeter for a preliminary check of electric conductivity of the achieved
fabrics. Electromagnetic shielding effectiveness tests showed a slight increase of EMSE above the
noise level in the frequency range of 100-1000 MHz, of 2- 3 dB. The research studies will continue
to improve shielding effectiveness of plasma coated fabrics for electromagnetic shielding
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