COMPARATIVE ANALYSIS OF DIELECTRIC AND STRUCTURAL CHARACTERISTICS OF THE SAMPLES BASED ON POLYETHYLENETEREPHTALATE
DOI:
https://doi.org/10.7251/COMEN1401042CAbstract
Widespread use of polymeric materials from the items for daily use to electrical engineering, electronics and medical applications causes a need for their detailed examination under various external influences. Dielectric spectroscopy allows monitoring changes in the structure of polymers under various external influences. In this paper we analyzed β relaxation recorded in polymer woven structures and meshes based on polyethyleneterephtalate. Based on the results obtained, a comparative analysis of dielectric parameters and structural characteristics of the samples was done.
References
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[35] D. D. Cerović, K. A. Asanović, S. B. Maletic, J. R., Dojčilović, Comparative study of the electrical and structural properties of woven fabrics, Composites Part B, Vol. 49 (2013) 6570.
[36] M. Wilhelm, H. W. Spiess, Detection of Slow 180° Phenylene Flips in PET Fibers via 13C Two-Dimensional Solid-State Exchange NMR, Macromolecules,Vol. 29 (1996) 10881090.
[37] T. A. Ezquerra, F. J. Balta-Calleja, H. G. Zachmann, Real time dielectric relaxation of poly(ethylene terephthalate) during crystallization from the glassy state, Polymer, Vol. 35 (1994) 2600−2606.
[38] G. C. Psarras, A. S. Beobide, G. A. Voyiatzis, P. K. Karahaliou, S. N. Georga, C. A. Krontiras, J. Sotiropoulos, Dielectric and Conductivity Processes in Poly(ethylene terephthalate) and Poly(ethylene naphthalate)Homopolymers and Copolymers, Journal of Polymer Science Part B: Polymer Physics, Vol. 44 (2006) 30783092.
[39] E. Neagu, P. Pissis, L. Apekis, Electrical conductivity effects in polyethylene terphalate terephthalate films, Journal of Applied Physics, Vol. 87 (2000) 29142922.
[2] G. Strobl, The Physics of Polymers, 2nd Edition, Springer Berlin Heidelberg New York, 1997.
[3] J. M. G. Cowie, V. Arrighi, Polymers: Chemistry and Physics of Modern Materials, third edition, CRC Press, 2008.
[4] O. Yano, H. Yamaoka, Cryogenic Properties of Polymers, Progress in Polymer Science, Vol. 20 (1995) 585613.
[5] К. Е. Perepelkin, Physicochemical Nature and Structural Dependence of the Unique Properties of Polyester Fibres, Fibre Chemistry, Vol. 33 (2001) 340352.
[6] D. C. Prevorsek, P. J. Harget, R. K. Sharma, A. C. Reimschussel, Nylon 6. fibers: changes in structure between moderate and high draw ratios, Journal of Macromolecule Science Physic B, Vol. 8 (1973) 127–156.
[7] A. Ajii, J. Guevremont, K. C. Cole, M. M Dumoulin, Orientation and structure of drawn poly(ethylene terephthalate), Polymer, Vol. 37 (1996) 37073714.
[8] D. Walls, Application of ATR-IR to the Analysis of Surface Structure and Orientation in Uniaxially Drawn Poly(ethyleneterephthalate), Applied Spectroscopy, Vol. 45 (1991) 11931198.
[9] N. Alves, J. Mano, E. Balaguer, J. Meseguer Duenas, J. Gomez Ribelles, Glass transition and structural relaxation in semi-crystalline poly(ethylene terephthalate): a DSC study, Polymer, Vol. 43 (2002) 41114122.
[10] W. Reddish, The dielectric properties of polyethylene terephthalate (terylene), Transactions of the Faraday Society, 1950, 459475.
[11] A. D. English, Macromolecular dynamics in solid poly (ethylene terephthalate): proton and carbon-13 solid-state NMR, Macromolecules, Vol. 17 (1984) 21822192.
[12] J. C. Coburn, R. H. Boyd, Dielectric Relaxation in Poly(ethy1ene terephthalate), Macromolecules, Vol. 19 (1986) 22382245.
[13] T. Pop, D. Iordache, A. Jonas, Dielectric properties of PET below its glass transition temperature, Microelectronic Engineering, Vol. 33 (1997) 377384.
[14] E. Neagu, P. Pissis, L. Apeki, J. L. Gomez Ribelles, Dielectric relaxation spectroscopy of polyethylene terephthalate (PET) films, Journal of Physics D: Applied Physics, Vol. 30 (1997) 1551.
[15] А. S. Maxwell, I. M. Ward, F. Lauprêtre, L. Monnerie, Secondary relaxation processes in polyethylene terephthalate-additive blends: 1. N. m. r. investigation, Polymer, Vol. 39 (1998) 6835 6849.
[16] А. S. Maxwell, L. Monnerie, I. M. Ward, Secondary relaxation processes in polyethylene terephthalate-additive blends: 2. Dynamic mechanical and dielectric investigations, Polymer, Vol. 39−26 (1998) 68516859.
[17] J. Menegotto, P. Demont, A. Bernes, C. Lacabanne, Combined Dielectric Spectroscopy and Thermally Stimulated Currents, Studies of the Secondary Relaxation Process in Amorphous Poly(ethylene terephthalate), Journal of Polymer Science Part B: Polymer Physics, Vol. 37−24 (1999) 34943503.
[18] J. Menegotto, P. Demont, C. Lacabanne, Secondary dielectric b-relaxation in amorphous poly(ethylene terephthalate): combined thermally stimulated and isothermal depolarization current investigations, Polymer, Vol. 42 (2001) 43754383.
[19] S. U. Boyd, R. H. Boyd, Chain Dynamics and Relaxation in Amorphous Poly(ethylene terephthalate): A Molecular Dynamics Simulation Study, Macromolecules, Vol. 34 (2001) 72197229.
[20] E. R. Neagu, R. M. Neagu, The contribution of dipoles and space charge to low temperature relaxation in polyethylene terephthalate, Journal of Аpplied Physics, Vol. 100 (2006) 074107−1− 0741076.
[21] H. Eslami, F. Muller-Plathe, Structure and Mobility of Poly(ethylene terephthalate): A Mo-lecular Dynamics Simulation Study, Macromolecules, Vol. 42 (2009) 82418250.
[22] J. W. S. Hearle, Capacity, Dielectric Constant, and Power Factor of Fiber Assemblies, Tex-tile Research Journal, Vol. 24−4 (1954) 307321.
[23] W. E. Morton, J. W. S. Hearle, Phisical Properties of Textile Fibres, The Textile Institute, William Heinemann Ltd, London, 1975.
[24] K. Bal, V. K. Kothari, Permittivity of Woven Fabrics: A Comparison of Dielectric Formulas for Air-Fiber Mixture, IEEE T Transactions on Dielectrics and Electrical Insulation, Vol. 17 (2010) 881889.
[25] K. Bal, V. K. Kothari, Study of dielectric behaviour of woven fabric based on two phase models, Journal of Electrostatics, Vol. 67−5 (2009) 751–758.
[26] K. Bal, V. K. Kothari, Measurement of Dielectric Properties of Textile Materials and Their Applications, Indian Journal of Fibre & Textile Research, Vol. 34 (2009) 191201.
[27] D. D. Cerović, J. R. Dojčilović, К. A. Asanović, T. A. Mihajlidi, D. M.P opović, S. B. Spasović, Investigation of dielectric properties and electric resistance of some textile materials: In Pro-ceedings of Fifth General Conference of the Balkan Physical Union, Vrnjačka Banja, 2003, 335.
[28] K. A. Asanović, T. A. Mihajlidi, S. V. Milosavljević, D. D. Cerović, J. R. Dojčilović, Investigation of the electrical behavior of some textile materials, Journal of Electrostatics, Vol. 65 (2007) 162167.
[29] K. Asanović, T. Mihailović, D. Cerović, T. Mihajlidi, J. Dojčilović, Influence of the structure on electrophysical properties of clothing woven fabrics: In Proceedings of Congress of Metrology, Zlatibor, 2007, 169177 (in Serbian).
[30] D. D. Cerovic, Investigation of the dielectric properties of woven fabrics, Tekstilna industrija, Vol. 56 (10−12) (2008) 2224 (in Serbian).
[31] D. D. Cerović, J. R. Dojčilović, К. A. Asanović, T. V. Mihailović, T. A. Mihajlidi, Assessment of Electrical Behavior of Non-Woven Textile Materials, 7th General Conference of the Balkan Physical Union, AIP Conference Proceedings 1203, Alexandroupolis 2009, 477482.
[32] D. D. Cerović, J. R. Dojčilović, K. A. Asanović, T. A. Mihajlidi, Dielectric investigation of some woven fabrics, Journal of Applied Physics, Vol. 106−8 (2009) 084101 (pp 7).
[33] D. D. Cerović, Physical processes in the filters obtained from polymer fibres, Doctoral Dissertation, Faculty of Physics, University of Belgrade, Belgrade, 2011. (in Serbian).
[34] D. D. Cerović, J. R. Dojčilović, S. B. Maletić, Dielectric response of fibrous polyethyleneterephtalate, European Polymer Journal, Vol. 48 (2012) 850–856.
[35] D. D. Cerović, K. A. Asanović, S. B. Maletic, J. R., Dojčilović, Comparative study of the electrical and structural properties of woven fabrics, Composites Part B, Vol. 49 (2013) 6570.
[36] M. Wilhelm, H. W. Spiess, Detection of Slow 180° Phenylene Flips in PET Fibers via 13C Two-Dimensional Solid-State Exchange NMR, Macromolecules,Vol. 29 (1996) 10881090.
[37] T. A. Ezquerra, F. J. Balta-Calleja, H. G. Zachmann, Real time dielectric relaxation of poly(ethylene terephthalate) during crystallization from the glassy state, Polymer, Vol. 35 (1994) 2600−2606.
[38] G. C. Psarras, A. S. Beobide, G. A. Voyiatzis, P. K. Karahaliou, S. N. Georga, C. A. Krontiras, J. Sotiropoulos, Dielectric and Conductivity Processes in Poly(ethylene terephthalate) and Poly(ethylene naphthalate)Homopolymers and Copolymers, Journal of Polymer Science Part B: Polymer Physics, Vol. 44 (2006) 30783092.
[39] E. Neagu, P. Pissis, L. Apekis, Electrical conductivity effects in polyethylene terphalate terephthalate films, Journal of Applied Physics, Vol. 87 (2000) 29142922.
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2014-09-25
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