I. Radulescu, L. Surdu, E. Visileanu, I. Sandulache, C. Morari, B. Mitu
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THE GAIN IN SHIEDLING EFFECTIVENESS ACHIEVED BY
SUPERPOSITION OF STAINLES-STEEL PLASMA COATED WOVEN
FABRICS
Electromagnetic shielding based on textile fabrics is important in applications for ensuring proper
work of electronic equipment and for protection of human’s health. Fibre-based materials include a good
capability for a precise design of the physical and electric properties of the EM shields. There are two main
methods to impart electroconductive properties to textile fabrics: insertion of conductive yarns into the fabric
structure and coating with conductive layers. In our approach, both methods were applied: cotton woven
fabrics with conductive yarns of stainless steel and silver, were coated by magnetron sputtering with stainless
steel layers. Electromagnetic shielding effectiveness (EMSE) was determined by Transversal-Electric-
Magnetic (TEM) cell measurement system, according to standard ASTM ES-07. Moreover, EMSE was
determined for the superposition of the manufactured textile shields. The stainless-steel plasma coating
improves EMSE with 20 dB in case of the fabrics with stainless steel yarns and with 15-17 dB in case of the
fabrics with silver yarns, in the frequency range of 0.1-1000 MHz. By superposition of the plasma coated
shields, the gain in EMSE achieved was of 6 dB for the fabrics with stainless steel yarns and of 5-8 dB for the
fabrics with silver yarns, on the same frequency range. EMSE has significant higher values in case of the
superposed shields with silver yarns and stainless-steel coating for the frequency domain of 100-1000 MHz,
due to the higher thickness and the significant contribution of the multiple reflection term.
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