References
- R. Neutra, V. Delpizzo and G.M. Lee, An Evaluation of the Possible Risks from Electric and Magnetic Fields (EMFs) from Power Lines, Internal Wiring, Electrical Occupations, and Appliances, California EMF program, Oakland, CA, 2002, pp. 1–401.
- G.G. Eichholz, Health Phys. 83 (2002) p. 920.
- Extremely Low Frequency Fields Environmental Health Criteria Monograph, Vol. 238, World Health Organization, Geneva, 2007.
- S.A. Meo and A.M. Al-dreess, Int. J. Occup. Med. Environ. Health 18 (2005) pp. 45–49.
- J.F. Tracy, Looming Health Crisis: Wireless Technology and the Toxification of America, Global Research, USA, 2013. Available at http://www.globalresearch.ca/looming-health-crisis-wireless-technology-and-the-toxification-of-america/31816
- C. Zong, Y. Ji, Q. He, S. Zhu, F. Qin, J. Tong and Y. Cao, Int. J. Radiat. Biol. 91 (2015) pp. 270–276.
- A.L. Dean, The American Academy of Environmental Medicine Calls for Immediate Caution Regarding Smart Meter Installation, Press Advisory April 12, 2012, American Academy of Environmental Medicine, Wichita, Kansas, 2012.
- J.L.N. Violette and D.R.J. White, Electromagnetic Compatibility Handbook, Van Nostrand Reinhold Company, New York, NY, 1987.
- S. Geetha, K.K.S. Kumar, C.R.K. Rao, M. Vijayan and D.C. Trivedi, J. Appl. Polym. Sci. 112 (2009) pp. 2073–2086.
- MIL-STD-285, Military Standard Attenuation Measurements for Enclosures, Electromagnetic Shielding, for Electronic Test Purposes, Method of, Government Printing Office, Washington, 1956.
- C. Tong, Advanced Materials and Design for Electromagnetic Interference, Taylor & Francis, Boca Raton, FL, 2009.
- W. Grzebyk, J. Janukiewicz, A. Kucharski, J. Skrzypczyński and T. Więckowski, Development of a Shielding Effectiveness Measurement Method for Screening Materials Along with Development of a Test Setup, Report I-28/SPR- 071/94, ITA PWr Wrocław, 1994.
- D.G. Bodnar, H.W. Denny and B.M. Jenkins, Shielding effectiveness measurements on conductive plastics. In Proceedings of IEEE EMC Society Symposium. San Diego, CA, 1979, pp. 27–33.
- MIL-G-83528, Gasketing Material, Conductive, Shielding Gasket, Electronic, Elastomer, EMI/RFI General Specification for MIL-G-83528, 1992.
- IEEE Std. 299-1997, IEEE Standard Method for Measuring the Effectiveness of Electromagnetic Shielding Enclosures, IEEE, New York, NY, 1996.
- ASTM E1851, Standard Test Method for Electromagnetic Shielding Effectiveness of Durable Rigid Wall Relocatable Structures, ASTM International, West Conshohocken, PA, 1997.
- S. Celozzi, R. Araneo and G. Lovat, Electromagnetic Shielding, John Wiley & Sons Inc., Hoboken, NJ, 2008.
- VG 95373-15, Electromagnetic Compatibility – Electromagnetic Compatibility of Equipment – Part 15: Test Method for Coupling and Screening, Germany, Feb. 1997
- U. Lundgren, Characterization of Components and Materials for EMC Barriers, PhD dissertation Luleå University of Technology, Luleå, Sweden, 2004.
- H. Rahman, P.K. Saha, J. Dowling and T. Curran, Shielding effectiveness measurement techniques for various materials used for EMI shielding, In IEE Colloquium on Screening of Connectors, Cables and Enclosures, IET, London, 9/1–9/6, 1992.
- ASTM D 4935-99, Standard Test Method for Measuring the Electromagnetic Shielding Effectiveness of Planar Materials, West Conshohocken, PA, 1999.
- R. Perumalraj, G. Nalankilli, T.R. Balasaravanan, K. Roshanraja and G. Shyamsundar, Indian J. Fibre Text. Res. 35 (2010) pp. 361–365.
- Y.K. Hong, C.Y. Lee, C.K. Jeong, D.E. Lee, K. Kim and J. Joo, Rev. Sci. Instrum. 74 (2003) pp. 1098–1102.
- M.S. Sarto, and A. Tamburrano, IEEE Trans. Electromagn. Compat. 48 (2006) pp. 331–341.
- H. Vasquez, L. Espinoza and K. Lozano, IEEE Trans. Electromagn. Compat., 220 (2009) pp. 62–68.
- H.C. Chen, K.C. Lee, J.H. Lin and M. Koch, J. Mater. Process Technol. 192–193 (2007) pp. 549–554.
- Z. Szabó, Comparison of Different Methods for Measurement of Shielding Fabrics Properties, PIERS Proceedings, Marrakesh, MOROCCO, March 20–23, 2011, pp. 1144–1148.
- S. Tezel, Y. Kavusturan, G. Vandenbosch and V. Volski, Text. Res. J. 84 (2013) pp. 461–476.
- H.W. Ott, Electromagnetic Compatibility Engineering, 1st ed., John Wiley & Sons, Hoboken, NJ, 2009.
- S. Brzeziński, T. Rybicki, I. Karbownik, G. Malinowska, E. Rybicki and L. Szugajew, Fibres Text. East. Eur. 17 (2009) pp. 66–71.
- P. Saini and M. Arora, Microwave absorption and EMI shielding behaviour of nanocomposites based on intrinsically conducting polymers, graphene and carbon nanotubes, in New Polymers for Special Applications, A.D. Gomes, ed., InTech, Rijeka, 2012, pp. 9.
- S.K. Dhawan, A. Ohlan and K. Singh, Designing of nano composites of conducting polymers for EMI shielding, in Advances in Nanocomposites – Synthesis, Characterization and Industrial Applications, B.S.R. Reddy, ed., INTECH, Rijeka, Croatia, 2011, pp. 442.
- J.W. Gooch and J.K. Daher, Electromagnetic Shielding and Corrosion Protection for Aerospace Vehicles, Springer, New York, NY, 2007.
- D.M. Pozar, Microwave Engineering, 3rd ed. Wiley, New York, 2004.
- A. Basu, An Introduction to Microwave Measurements, CRC Press, Boca Raton, FL, 2014.
- M. Laštovičková and J. Bochníček, Stud. Geophys. Geodaet. 36 (1992) pp. 94–99.
- J. Jiang, L.-H. Ai, D.-B. Qin, H. Liu and L.-C. Li, Synth. Metals 159 (2009) pp. 695–699.
- M. Faisal and S. Khasim, Bull. Korean Chem. Soc. 34 (2013) pp. 99–106.
- A. Fattoum, M. Arous, F. Gmati, W. Dhaoui and B. Mohamed, J. Phys. D: Appl. Phys. 40 (2007) pp. 4347–4354.
- S.J. Su and N. Kuramoto, Synth. Metals 114 (2000) pp. 147–153.
- J. Baker-Jarvis, M.D. Janezic, B. Riddle and C.L. Holloway, Dielectric and Conductor-Loss Characterization and Measurements on Electronic Packaging Materials, NIST Technical Note 1520, 2001, pp. 1–152.
- E.P. Wohlfarth and K.H.J. Buschow, Handbook of Magnetic Materials, Vol. 13, Gulf Professional Publishing, Amsterdam, Netherland, 2001.
- R. Perumalraj, B.S. Dasaradan, R. Anbarasu, P. Arokiaraj and S.L. Harish, J. Text. Inst. 100 (2009) pp. 512–524.
- L. Sandrolini and U. Reggiani, Investigations on the shielding effectiveness properties of electrically conductive textiles, in Proc. of the Asia-Pacific Microwave Conference APMC 2008, Hong Kong, China, 2008, pp. 1–4.
- L.L. Wang, B.-K. Tay, K.-Y. See, Z. Sun, L.-K. Tan and D. Lua, Carbon 47 (2009) pp. 1905–1910.
- R. Neelakandan, V.R. Giridev, M. Murugesan and M. Madhusoothanan, J. Ind. Text. 39 (2009) pp. 175–186.
- K.B. Cheng, T.H. Ueng and G. Dixon, Text. Res. J. 71 (2001) pp. 732–738.
- K. Jagatheesan, A. Ramasamy, A. Das and A. Basu, Indian J. Fibre Text. Res. 39 (2014) pp. 329–342.
- M. Ramasubramanian, J. Electrochem. Soc. 146 (1999) p.111.
- S. Shinagawa, Y. Kumagai and K. Urabe, J. Porous Mater. 6 (1999) pp. 185–190.
- E. Gyeong, E. Ae and K. Wha, Synth. Metals 123 (2001) pp. 469–476.
- R.H. Guo, S.Q. Jiang, C.W.M. Yuen and M.C.F. Ng, J. Mater. Sci.: Mater. Electron. 20 (2009) pp. 735–740.
- Y. Lu, S. Jiang and Y. Huang, Surf. Coat. Technol. 204 (2010) pp. 2829–2833.
- S.X. Jiang and R.H. Guo, Surf. Coat. Technol. 205 (2011) pp. 4274–4279.
- R. Perumalraj and B.S. Dasaradan, Indian J. Fibre Text. Res. 36 (2011) pp. 35–41.
- Y. Lu and L. Xue, Compos. Sci. Technol. 72 (2012) pp. 828–834.
- E. Håkansson, A. Amiet, S. Nahavandi and A. Kaynak, Eur. Polym. J. 43 (2007) pp. 205–213.
- S. Hideki, J. Louis, G. Macdiarmid, K. Chiang and J. Heeger, Chem. Commun. 16 (1977) pp. 578–580.
- Y. Wang and X. Jing, Polym. Adv. Technol. 16 (2005) pp. 344–351.
- J. Joo and A.J. Epstein, Appl. Phys. Lett. 65 (1994) pp. 2278.
- N. Puanglek, A. Sittattrakul and W. Lerdwijitjarud, Sci. J. UBU 1 (2010) pp. 35–42.
- H.S. Abdulla and A.I. Abbo, Int. J. Electrochem. Sci. 7 (2012) pp. 10666–10678.
- T. Inagaki, M. Hunter, X.Q. Yang, T.A. Skotheim, H.S. Lee and Y. Okamoto, Mol. Cryst. Liq. Cryst. Inc. Nonlinear Opt. 160 (1988) pp. 79–88.
- R.V Gregory and S. Carolina, Synth. Metals 28 (1989) pp. 823–835.
- H.H. Kuhn, W.C. Kimbrell, J.E. Fowler and C.N. Barry, Synth. Metals 57 (1993) pp. 3707–3712.
- E. Håkansson, A. Amiet and A. Kaynak, Synth. Metals 156 (2006) pp. 917–925.
- M.S. Kim, H.K. Kim, S.W. Byun, S.H. Jeong, Y.K. Hong, J.S. Joo, K.T. Song, J.K. Kim, C.J. Lee and J.Y. Lee, Synth. Metals 126 (2002) pp. 233–239.
- S.H. Kim, S.H. Jang, S.W. Byun, J.Y. Lee, J.S. Joo, S.H. Jeong and M.J. Park, J. Appl. Polym. Sci. 87 (2003) pp. 1969–1974.
- J. Avloni, R. Lau, M. Ouyang, L. Florio, A.R. Henn and A. Sparavigna, J. Ind. Text. 38 (2008) pp. 55–68.
- X. Yang and Y. Lu, Polymer 46 (2005) pp. 5324–5328.
- M.M. Abdi, A.B. Kassim, H.N.M. Ekramul Mahmud, W.M.M. Yunus and Z.A. Talib, J. Macromol. Sci. Pure Appl. Chem. 47 (2009) pp. 71–75.
- S.N. Tan and H. Ge, Polymer 37 (1996) pp. 965–968.
- L. Acqua, C. Tonin, A. Varesano, M. Canetti, W. Porzio and M. Catellani, Synth. Metals 156 (2006) pp. 379–386.
- S.S. Najar, A. Kaynak and R.C. Foitzik, Synth. Metals 157 (2007) pp. 1–4.
- S.K. Dhawan and D.C. Trivedi, Bull. Mater. Sci. 16 (1993) pp. 371–380.
- Z. Yildiz, I. Usta and A. Gungor, Text. Res. J. 82 (2012) pp. 2137–2148.
- Milliken and Co., Available at http://www.milliken.com
- S.K. Dhawan, N. Singh and S. Venkatachalam, Synth. Metals 125 (2002) pp. 389–393.
- L. Shunhua and G. Hongtao, Sci. Technol. Adv. Mat. 6 (2005) pp. 513–518.
- C.Y. Lee, H.G. Song, K.S. Jang, E.J. Oh, A.J. Epstein and J. Joo, Synth. Metals 102 (1999) pp. 1346–1349.
- S. Koul, R. Chandra and S.K. Dhawan, Polymer 41 (2000) pp. 9305–9310.
- S.K. Dhawan, N. Singh and S. Venkatachalam, Synth. Metals 129 (2002) pp. 261–267.
- S. Geetha, K.K. Satheesh Kumar and D.C. Trivedi, Compos. Sci. Technol. 65 (2005) pp. 973–980.
- N.C. Das, S. Yamazaki, M. Hikosaka, T.K. Chaki, D. Khastgir and A. Chakraborty, Polym. Int. 54 (2005) pp. 256–259.
- D. Yuping, J Compos. Mater. 40 (2005) pp. 1093–1104.
- K. Naishadham and P.K. Kadaba, IEEE Trans. Microw. Theory Tech. 39 (1991) pp. 1158–1164.
- B.G. Heywang and F. Jonas, Adv. Mater. 4 (1992) pp. 116–118.
- F. Jonas and L. Schrader, Synth. Metals 41–43 (1991) pp. 831–836.
- B.R. Jung, Y.R. Kwon, J.M. Ko, M.S. Kim, S.H. Cho, J.Y. Lee and J. Joo, Mol. Cryst. Liq.Cryst. 464 (2007) pp. 109/[691]–117/[699].
- W. Chiang and K. Cheng, Polym. Compos. 18 (1997) pp. 748–756.
- J.C. Huang, Adv. Polym. Technol. 14 (1995) pp. 137.
- Z. Liu, G. Bai, Y. Huang, Y. Ma, F. Du, F. Li, T. Guo and Y. Chen, Carbon 45 (2007) pp. 821–827.
- N.C. Das, D. Khastgir, T.K. Chaki and A. Chakraborty, Compos. A. 31 (2000) pp. 1069–1081.
- D.D.L. Chung, Carbon 39 (2001) pp. 279–285.
- P.B. Jana, A.K. Mallick and S.K. De, IEEE Trans. Electromagn. Compat. 34 (1992) pp. 478–481.
- X. Luo and D.D.L. Chung, Compos. B. 30 (1999) pp. 227–231.
- X. Wang, J. Electromagn. Anal. Appl. 03 (2011) pp. 160–164.
- N.C. Das, T.K. Chaki, D. Khastgir and A. Chakraborty, J. Appl. Polym. Sci. (2001) pp. 1601–1608.
- N.C. Das, T.K. Chaki, D. Khastgir, Adv. Polym. Technol. 20 (2001) pp. 226–236.
- Q. Liu, D. Zhang, T. Fan, J. Gu, Y. Miyamoto and Z. Chen, Carbon 46 (2008) pp. 461–465.
- A. Das, H.T. Hayvaci, M.K. Tiwari, I.S. Bayer, D. Erricolo and C.M. Megaridis, J. Colloid Interface Sci. 353 (2011) pp. 311–315.
- L. Nayak, D. Khastgir and T.K. Chaki, J. Mater. Sci. 48 (2012) pp. 1492–1502.
- M.S. Ahmad, M.K. Abdelazeez, A. Zihlif, E. Martuscelli, G. Ragosta and E. Scafora, J. Mater. Sci. 25 (1990) pp. 3083–3088.
- X. Shui and D.D.L. Chung, J. Electron. Mater. 24 (1995) pp. 107–113.
- X. Shui and D.D.L. Chung, J. Electron. Mater. 26 (1997) pp. 928–934.
- V. Di Liello, E. Martuscelli, G. Ragosta and A. Zihlif, J. Mater. Sci. 25 (1990) pp. 706–712.
- J.C. Huang and B.P. Kothari, Sci. Eng. Compos. Mater. 3 (1994) pp. 253–257.
- W. Chiang and Y. Chiang, J. Appl. Polym. Sci. 46 (1992) pp. 673–681.
- G. Lu, X. Li and H. Jiang, Compos. Sci. Technol. 56 (1996) pp. 193–200.
- C. Huang and J. Pai, J. Appl. Polym. Sci. 63 (1997) pp. 115–123.
- C. Huang and J. Pai, Eur. Polym. J. 34 (1998) pp. 261–267.
- C. Huang and T.-W. Chiou, Eur. Polym. J. 34 (1998) pp. 37–43.
- C. Huang and C. Wu, Eur. Polym. J. 36 (2000) pp. 2729–2737.
- S. Tzeng and F. Chang, Mat. Sci. Eng. A Struct. A 302 (2001) pp. 258–267.
- C.-Y. Huang, W.-W. Mo and M.-L. Roan, Surf. Coat. Technol. 184 (2004) pp. 163–169.
- C.-Y. Huang, W.-W. Mo and M.-L. Roan, Surf. Coat. Technol. 184 (2004) pp. 123–132.
- R.R. Wang, F. He, Y. Wan and Y. Qi, J. Alloy Compd. 514 (2012) pp. 35–39.
- B.-F. Zhao, P. Ma, J.-M. Zhao, D.-A. Li and X. Yang, Ceram. Int. 39 (2013) pp. 2317–2322.
- S. Iijima, Lett. Nat. 354 (1991) pp. 56–58.
- R.B. Mathur, S. Pande, B.P. Singh and T.L. Dhami, Polym. Compos. 29 (2008) pp. 717–727.
- J.E. Morris and K. Iniewski, Graphene, Carbon Nanotubes, and Nanostructures, Technique and Applications, CRC Press, London, 2013.
- S. Iijima and T. Ichihashi, Lett. Nat. 363 (1993) pp. 603–605.
- Y. Yang, M.C. Gupta, K.L. Dudley and R.W. Lawrence, J. Nanosci. Nanotechnol. 5 (2005) pp. 927–931.
- Y. Yang, M.C. Gupta, K.L. Dudley and R.W. Lawrence, Nano Lett. 5 (2005) pp. 2131–2134.
- H.J. Barraza, F. Pompeo, E.A.O. Rear and D.E. Resasco, Nano Lett. 2 (2002) pp. 797–802.
- M.B. Bryning, M.F. Islam, J.M. Kikkawa and A.G. Yodh, Adv. Mater. 17 (2005) pp. 1186–1191.
- C.A. Grimes, C. Mungle, D. Kouzoudis, S. Fang and P.C. Eklund, Chem. Phys. Lett. 319 (2000) pp. 460–464.
- N. Li, Y. Huang, F. Du, X. He, X. Lin and H. Gao, Nano Lett. 6 (2006) pp. 1141–1145.
- Y. Huang, N. Li, Y. Ma, F. Du, F. Li, X. He, X. Lin, H. Gao and Y. Chen, Carbon 45 (2007) pp. 1614–1621.
- H.M. Kim, K. Kim, S.J. Lee, J. Joo, H.S. Yoon, S.J. Cho, S.C. Lyu and C.J. Lee, Curr. Appl. Phys. 4 (2004) pp. 577–580.
- N.C. Das and S. Maiti, J. Mater. Sci. 43 (2008) pp. 1920–1925.
- P. Saini and V. Choudhary, J. Nanopart. Res. 15 (2013) pp. 3–7.
- H.M. Kim, K. Kim, C.Y. Lee, J. Joo, S.J. Cho, H.S. Yoon, D.A. Pejaković, J.W. Yoo and A.J. Epstein, Appl. Phys. Lett. 84 (2004) pp. 589–591.
- H. Wu, C.M. Ma, Y. Yang, H. Kuan and C. Yang, J. Polym. Sci. B: Polym. Phys. 44 (2006) pp. 1096–1105.
- W.Z. Tang, M.H. Santare and S.G. Advani, Carbon 41 (2003) pp. 2779–2785.
- L.S. Schadler, S.C. Giannaris and P.M. Ajayan, Appl. Phys. Lett. 73 (1998) pp. 3842–3844.
- Y. Yang, M.C. Gupta and K.L. Dudley, Micro. Nano. Lett. 2 (2007) pp. 85–89.
- M.H. Al-Saleh and U. Sundararaj, Carbon 47 (2009) pp. 1738–1746.
- N.J.S. Sohi, M. Rahaman and D. Khastgir, Polym. Compos. 32 (2011) pp. 1148–1154.
- W.-S. Jou, H.-Z. Cheng and C.-F. Hsu, J. Alloys Compd. 434–435 (2007) pp. 641–645.
- T.A. Skotheim and J. Reynolds, Handbook of Conducting Polymers, CRC press, London, 2007.
- K. Kim, S.J. Cho, S.T. Kim, I. Chin and H.J. Choi, Macromolecules 38 (2005) pp. 10623–10626.
- X. Gong, J. Liu, S. Baskaran, R.D. Voise and J.S. Young, Chem. Mater. 12 (2000) pp. 1049–1052.
- B. Zhu, S. Xie, Z. Xu and Y. Xu, Compos. Sci. Technol. 66 (2006) pp. 548–554.
- S.-M. Yuen, C.-C.M. Ma, Y.-Y. Lin and H.-C. Kuan, Compos. Sci. Technol. 67 (2007) pp. 2564–2573.
- X. Jiang, Y. Bin and M. Matsuo, Polymer 46 (2005) pp. 7418–7424.
- I.S. Lee, S.H. Yoon, H.-J. Jin and H.J. Choi, Diamond Relat. Mater. 15 (2006) pp. 1094–1097.
- S.T. Kim, J.Y. Lim, B.J. Park and H.J. Choi, Macromol. Chem. Phys. 208 (2007) pp. 514–519.
- S.M. Yuen, C.C.M. Ma, C.Y. Chuang, K.C. Yu, S.Y. Wu, C.C. Yang and M.H. Wei, Compos. Sci. Technol. 68 (2008) pp. 963–968.
- H. Chang, Y.M. Yeh and K.D. Huang, Mater. Trans. 51 (2010) pp. 1145–1149.
- I.W. Nam, H.K. Lee and J.H. Jang, Compos. A. 42 (2011) pp. 1110–1118.
- A.S. Hoang, Adv. Nat. Sci.: Nanosci. Nanotechnol. 2 (2011) pp. 025007-
- H. Wang, G. Wang, W. Li, Q. Wang, W. Wei, Z. Jiang and S. Zang, J. Mater. Chem. 22 (2012) pp. 21232–21237.
- J. Yun and H.-I. Kim, Polym. Bull. 68 (2011) pp. 561–573.
- L. Li and D.D.L. Chung, Composites 22 (1991) pp. 211–218.
- K.S. Chou, K.C. Huang and Z.H. Shih, J. Appl. Polym. Sci. 97 (2005) pp. 128–135.
- W. Zeng and S.T. Tan, Polym. Compos. (2006) pp. 24–29.
- W. Zhai, Y. Chen, J. Ling, B. Wen and Y. Kim, J. Cell. Plast. 50 (2014), pp. 537–550.
- C. Guo, H. Duan, C. Dong, G. Zhao, Y. Liu and Y. Yang, Mater. Lett. 143 (2015) pp. 124–127.
- S. Zhang, X. Wang and D. Wu, Polym. Compos. 2015, pp. 1–14.
- H. Gokturk, T. Fiske and D.M. Kalyon, Dielectric Soc. Plast. Eng. ANTEC Tech. Pap. 39 (1993) pp. 605–608.
- C.S. Chen, W.R. Chen, S.C. Chen and R.D. Chien, Int. Commun. Heat Mass Transf. 35 (2008) pp. 744–749.
- R.B. Yang, W.F. Liang, C.W. Lou and J.H. Lin, J. Appl. Phys. 111 (2012) pp. 07A338-1–07A338-3.
- Z. Xiuzhi and S. Wei, J. Wuhan Univ. Tech. Mater. Sci. Ed. 27 (2012) pp. 172–176.
- D.M. Bigg, Adv. Polym. Tech. 4 (1984) pp. 255–266.
- L. Li and D.D.L. Chung, Composites 25 (1994) pp. 215–224.
- A.A. Al-Ghamdi and F. El-Tantawy, Compos. A. 41 (2010) pp. 1693–1701
- X. Tao, Wearable Electronics and Photonics, Woodhead Publishing Limited, Cambridge, 2005.
- V.A. Bannyi and I.N. Khodakova, Fibre Chem. 34 (2002) pp. 54–57.
- F. Çeken, Ü.H. Erdoğan, O. Kayacan and Ş.S. Uğurlu, J. Text. Inst. 103 (2012) pp. 669–675.
- M.S. Ozen, E. Sancak, a. Beyit, I. Usta and M. Akalin, Text. Res. J. 83 (2012) pp. 849–858.
- T.T. Li, R. Wang, C.W. Lou, M.C. Lin and J.H. Lin, Text. Res. J. 83 (2013) pp. 1796–1807.
- M.S. Ozen, E. Sancak and M. Akalin, Text. Res. J. 85 (2014) pp. 804–815.
- M.S. Ozen and E. Sancak, J. Text. Inst. ahead of print (2015) pp. 1–9.
- J.E. Travis, Thermoplastic composites for electrostatic dissipation and emi attenuation, in Proceedings of 39′h Annual Technical Conference, Society of the Plastic Industry, 1984, pp. 16–19.
- K.B. Cheng, J. Text. Eng. 46 (2000) pp. 42–52.
- K.B. Cheng, T.W. Cheng, K.C. Lee, T.H. Ueng and W.H. Hsing, Compos. A. 34 (2003) pp. 971–978.
- T.W. Shyr and J.-W. Shie, J. Magn. Magn. Mater. 324 (2012) pp. 4127–4132.
- A. Das, J. Krishnasamy, R. Alagirusamy and A. Basu, Fibre Polym. 15 (2014) pp. 169–174.
- A. Das, J. Krishnasamy, R. Alagirusamy and A. Basu, Fiber Polym. 15 (2014) pp. 2423–2427.
- S. Ramson, Polym. News 8 (1982) pp. 124–125
- A. Das, V.K. Kothari, A. Kothari, A. Kumar and S. Tuli, Indian J. Fibre Text. Res. 34 (2009) pp. 144–148.
- L. Hoeft and E.W. Tokarsky, IEEE Int. Sympos. EMC, 2 (2000) pp. 883–886.
- C.I. Su and J.T. Chern, Text. Res. J. 74 (2004) pp. 51–54.
- J.-S. Roh, Y.-S. Chi, K. T.-J and S.-W. Nam, Text. Res. J. 78 (2008) pp. 825–835.
- T. Ramachandran and C. Vigneswaran, J. Ind. Text. 39 (2009) pp. 81–93.
- R. Perumalraj and B.S. Dasaradan, Indian J. Fibre Text. Res. 34 (2009) pp. 149–154.
- D. Soyaslan, S. Çömlekçi and Ö. Göktepe, J. Text. Inst. 101 (2010) pp. 890–897.
- K.B. Cheng, T.W. Cheng, R.N. Nadaraj, V.R. Giridev and R. Neelakandan, J. Reinforced Plast. Comp. 25 (2006) 699–709.
- R. Perumalraj and B.S. Dasaradan, Fibres Text. East. Eur. 18 (2010) pp. 74–80.
- H.G. Ortlek, O.G. Saracoglu, O. Saritas and S. Bilgin, Fibre. Polym. 13 (2012) pp. 63–67.
- P.W. Hwang, A.P. Chen, C.W. Lou and J.H. Lin, J. Ind. Text. 44 (2013) pp. 477–494.
- H. Ozdemir, E.S. Uurlu and A. Ozkurt, J. Ind. Text. ahead of print (2015) pp. 1–21.
- X. Zhu, X. Li and B. Sun, Electron. Rev. 88 (2012) pp. 42–43.
- X. Zhu and B. Sun, Research on electromagnetic shielding efficacy of knitting clothing, in Cross Strait Quad-Regional Radio Science and Wireless Technology Conference Research, IEEE, Harbin, China, 2011, pp. 108–110.
- I. Ciesielska-wróbel and K. Grabowska, Fibres Text. East. Eur. 2 (2012) pp. 53–60.
- C.W. Lou, C.M. Lin, W.H. Hsing, A.P. Chen and J.H. Lin, Text. Res. J. 81 (2011) pp. 1331–1343.
- F. Çeken, Ö. Kayacan, A. Özkurt and Ş.S. Uğurlu, J. Text. Inst. 103 (2012) pp. 968–979.
- N. Sudarshan, S.K. Chatterji, K. Suryanarayana and G.V. Rao, EM shielding effectiveness of metal sandwiched composites, in Proceedings of INCEMIC 2001–2002, IEEE, 2002, pp. 99–103.
- S. Lee, K. Oh and C. Kim, Electron. Lett. 42 (2006) pp. 12–13.
- M.S. Mirotznik, S. Yarlagadda, R. Mccauley and P. Pa, IEEE Trans. Microw. Theory Tech. 60 (2012) pp. 158–169.
- K.B. Cheng, S. Ramakrishna and K.C. Lee, Compos. A. 31 (2000) pp. 1039–1045.
- H.C. Chen, J.H. Lin and K.C. Lee, J. Reinforced Plast. Compos. 27 (2007) pp. 187–204.
- A. Gungor, I. Usta, M.H. Ugur, Z. Yildiz, E. Sancak and C. Macit, Electromagnetic shielding and electrical properties of polyurethane acrylate/E-glass composites in the 3-13 GHz frequency range, in 2011 30th URSI General Assembly and Scientific Symposium, URSIGASS 2011, IEEE, Istanbul, Turkey, 2011.
- K.Y. Park, S.E. Lee, C.G. Kim and J.H. Han, Compos. Struct. 81 (2007) pp. 401–406.
- S.E. Lee, J.H. Kang and C.G. Kim, Compos. Struct. 76 (2006) pp. 397–405.
- K. Park, S. Lee, C. Kim and J. Han, Compos. Sci. Technol. 66 (2006) pp. 576–584.
- W.S. Jou, J. Electron. Mater. 33 (2004) pp. 162–170.
- R.A. Tellakula, V.K. Varadan, T.C. Shami and G.N. Mathur, Smart Mater. Struct. 13 (2004) pp. 1040–1044.
- S. Rea, D. Linton and E. Orr, J. Microw. Rev. 11 (2005) pp. 29–32.
- S.E. Lee, K.Y. Park, K.S. Oh and C.G. Kim, Carbon 47 (2009) pp. 1896–1904.
- W.J. Lee, J.W. Lee and C.G. Kim, Compos. Sci. Technol. 68 (2008) pp. 2485–2489.
- K.B. Cheng, K.C. Lee, T.H. Ueng and K.J. Mou, Compos. A. 33 (2002) pp. 1219–1226.
- R. Perumalraj, B. Dasaradhan and G. Nalankilli, J. Reinforced Plast. Compos. 29 (2010) pp. 3074–3082.
- H.C. Chen, K.C. Lee and J.H. Lin, Compos. A. 35 (2004) pp. 1249–1256.
- C.H. Huang, J.H. Lin, R.B. Yang, C.W. Lin and C.W. Lou, J. Electron. Mater. 41 (2012) pp. 2267–2273.
- C.J. Von Klemperer and D. Maharaj, Compos. Struct. 91 (2009) pp. 467–472.
- V. Šafářová and J. Militký, Text. Res. J. 84 (12) pp. 1255–1267.