COMPARATIVE ANALYSIS OF DIELECTRIC AND STRUCTURAL CHARACTERISTICS OF THE SAMPLES BASED ON POLYETHYLENETEREPHTALATE
Abstract
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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[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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