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Shield Effect Of Functional Interlining Fabric

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Electromagnetic interference (EMI) have become very serious in a variety of different electronic equipments, such as personal computers (frequency at several GHz), mobile devices (0.9 – 2.4 GHz) and similar. This imposes the need for setting boundaries for EM emission of electric and electronic devices in order to minimize the possibility of interference with radio and wireless communications. Functional textiles can offer protective properties against EM radiation. The aim of this study is to investigate the degree of protection against EM radiation provided by polyamide copper-coated interlining fabric before and after dry cleaning treatment. EM protection efficiency of the interlining functional fabric is explored on both sides at the frequencies of 0.9; 1.8; 2.1 and 2.4 GHz. The results obtained have shown that the interlining fabric has good protective properties against EM radiation, but after dry cleaning, treatment reduction is observed. Scanning electron microscopy micrographs of the interlining surface confirms shield effect decline due to degradation and firing of the copper layers during the process of dry cleaning.
Rocznik
Strony
93--98
Opis fizyczny
Bibliogr. 24 poz.
Twórcy
  • University of Zagreb, Faculty of Textile Technology, Department for Clothing Technology, Prilaz baruna Filipovića 28a, 10 000 Zagreb, Croatia, phone: 385 1 37 12 544, fax: 358 1 37 12 519
  • bosiljka.saravanja@ttf.hr
autor
  • University of Zagreb, Faculty of Electrical Engineering and Computing, Unska 3, 10 000 Zagreb, Croatia, phone: 385 1 61 29 789, fax: 358 1 6129 717
  • kresimir.malaric@fer.hr
autor
  • University of Zagreb, Faculty of Textile Technology, Department for Textile Chemistry & Ecology, Savska cesta 16/V, 10 000 Zagreb, Croatia, phone: 385 1 48 77 354, fax: 358 1 48 77 354
autor
  • University of Zagreb, Faculty of Textile Technology, Department for Clothing Technology, Prilaz baruna Filipovića 28a, 10 000 Zagreb, Croatia, phone: 385 1 37 12 544, fax: 358 1 37 12 519
Bibliografia
  • 1. Ammari M., et al. (2008) Exposure to GSM 900 MHz Electromagnetic Fields Affects Cerebral Cytochrome Coxidase Activity, Toxicology, 250, 70-74
  • 2. Sage C., Carpenter D.O., (2012), A Rationale for Biologically-based Exposure Standards for Low-Intensity Electromagnetic Radiation, BioInitiative, December 31st, USA
  • 3. Saini B.S., Pandey A., (2013) Effect of Mobile Phone and BTS Radiation on Heart Rate Variability, International Journal of Research in Engineering and Technology, (2) 4, 662-666, ISSN 2319 – 1163
  • 4. Rau M., et al. (2011) The Study of the Electromagnetic Shielding Properties of a Textile Material with Amorphous Microwire, Advances in Electrical and Computer Engineering, 11 (1), 17-22.
  • 5. Shangcheng X., et al. (2010), Exposure to 1800 MHz Radiofrequency Radiation Induces Oxidative Damage to Mitochondrial DNA in Primary Cultured Neurons, Brain Research 1311, 189-196
  • 6. Duran D., Kadoglu H., (2012), A Research on Electromagnetic Shielding with Copper Core Yarns, Tekstil ve Konfeksiyon, 4, 354-359
  • 7. Brzezinski S., et al. (2009), Textile Multi-layer Systems for Protection Against Electromagnetic Radiation, Fibres & Textiles in Eastern Europe, 17 (73), 66-71
  • 8. Koprowska J., Pietranik M., Stawski W., (2004), New Type of Textiles with Shielding Properties, Fibres & Textiles in Eastern Europe, 12 (47), 39-42
  • 9. Grabowska K. E. Marciniak K, Ciesielska-Wróbel I. L.(2011), The analysis of attenuation of electromagnetic field by woven structures based on hybrid fancy yarns, Textile Research Journal, 81(15) 1578–1593
  • 10. Cheng, K. B.; Lee, M. L.; Ueng, T. H. (2001), Electromagnetic Shielding Effectiveness of Stainless Steel/Polyester Woven Fabrics, Textile Research Journal, 71 (1), 42-49;
  • 11. Ciesielska-Wrobel I, Grabowska, K (2012) Estimation of the EMR Shielding Effectiveness of Knit Structures, Fibres & Textiles in Eastern Europe, 20, 2 (91), 53-60
  • 12. Roh, J-S et al (2008), Electromagnetic Shielding Effectiveness of Multifunctional Metal Composite Fabrics, Textile Research Journal, 78 (9), 825–835
  • 13. ÖZEN M.S., et al. (2012), An Investigation of Electromagnetic Wave Absorption Potential of Woven Fabrics with Stainless Steel Wire, RMUTP International Conference Textiles & Fashion 2012, July 3-4, Bangkok, Thailand
  • 14. Ozdemir H., Ozkurt A., (2013), The Effects of Fabric Structural Parameters on the Electromagnetic Shielding Effectiveness, Tekstil 62, 134-144
  • 15. Çeken F., et al. (2011), The Electromagnetic Shielding Properties of Copper and Stainless Steel Knitted Fabrics, Tekstil, 60, 295-354
  • 16. Ceken F., et al. (2012), Electromagnetic Shielding Properties of Plain Knitted Fabrics Containing Conductive Yarns, Journal of Engineered Fibers and Fabrics, 7 (4), 81-87
  • 17. Sonehara M., et al. (2009), Development of an Electromagnetic Wave Shielding Textile by Electroless Ni-Based Alloy Plating, IEEE Transactions on Magnetics, Vol. 45, 10, 4173-4175
  • 18. Duran D., Kadoglu H., (2010), Protection Against Electromagnetic Waves with Textiles, (Ed. Dragčević Z.), 5th International Textile, Clothing & Design Conference – Magic World of Textiles, October 03rd to 06th 2010, Dubrovnik, Croatia, 231-234, ISSN 18477275
  • 19. Das A., et al. (2009), Effect of Various Parameters on Electromagnetic Shielding Effectivenes of Textile Fabrics, Indian Journal of Fibers & Textile Research, 34, 144-148
  • 20. Sonehara M., et al. Preparation and Characterization of Nanofiber Nonwoven Textile for Electromagnetic Wave Shielding, (2008), IEEE Transactions on Magnetics, 44 (11), 3107-3110
  • 21. Malarić K., (2010), EMI Protection for Communication Systems, Boston, USA, Artech House, 685 Canton Street, Norwood, MA 02062, ISBN 13: 978-1-59693-313-2
  • 22. IEEE STD 299 Standard Method for Measuring the Effectiveness of Electromagnetic Shielding Enclosures, 299, 2006
  • 23. MIL-STD-285, Military Standard: Attenuation Measurements for Enclosures, Electromagnetic Shielding, 1956
  • 24. ASTM D-4935-89 Standard Test Method for Measuring the Electromagnetic Shielding Effectiveness of Planar Materials, 1999
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5c311807-306b-4ad2-8af3-99b127022ab8
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