Frequency Dependence of the Complex Conductivity of Thin Polymer Films
A method to experimentally determine the components of complex thermal conductivity for thin polymer films has been developed. It is based on measuring the temperatures of both sides of a film in which a periodic temperature wave is excited. Formulas have been derived that relate the measured temper...
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| Published in: | Technical physics Vol. 65; no. 6; pp. 1006 - 1009 |
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| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | English |
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Moscow
Pleiades Publishing
01.06.2020
Springer Springer Nature B.V |
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| ISSN: | 1063-7842, 1090-6525 |
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| Abstract | A method to experimentally determine the components of complex thermal conductivity for thin polymer films has been developed. It is based on measuring the temperatures of both sides of a film in which a periodic temperature wave is excited. Formulas have been derived that relate the measured temperatures to the thermal conductivity components. Using this method, the frequency dependences of the complex conductivity for cellulose (150 μm thick), fluoroplastic (600 μm), and polypropylene (600 μm) films have been obtained in the frequency range of 0.01–0.25 Hz at 293 K. |
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| AbstractList | A method to experimentally determine the components of complex thermal conductivity for thin polymer films has been developed. It is based on measuring the temperatures of both sides of a film in which a periodic temperature wave is excited. Formulas have been derived that relate the measured temperatures to the thermal conductivity components. Using this method, the frequency dependences of the complex conductivity for cellulose (150 μm thick), fluoroplastic (600 μm), and polypropylene (600 μm) films have been obtained in the frequency range of 0.01–0.25 Hz at 293 K. A method to experimentally determine the components of complex thermal conductivity for thin polymer films has been developed. It is based on measuring the temperatures of both sides of a film in which a periodic temperature wave is excited. Formulas have been derived that relate the measured temperatures to the thermal conductivity components. Using this method, the frequency dependences of the complex conductivity for cellulose (150 [mu]m thick), fluoroplastic (600 [mu]m), and polypropylene (600 [mu]m) films have been obtained in the frequency range of 0.01-0.25 Hz at 293 K. |
| Audience | Academic |
| Author | Zabashta, Yu. F. Kovalchuk, V. I. Alekseev, A. N. Bulavin, L. A. Andrusenko, D. A. |
| Author_xml | – sequence: 1 givenname: A. N. surname: Alekseev fullname: Alekseev, A. N. email: sabkiev@gmail.com organization: Shevchenko National University – sequence: 2 givenname: Yu. F. surname: Zabashta fullname: Zabashta, Yu. F. organization: Shevchenko National University – sequence: 3 givenname: V. I. surname: Kovalchuk fullname: Kovalchuk, V. I. organization: Shevchenko National University – sequence: 4 givenname: D. A. surname: Andrusenko fullname: Andrusenko, D. A. organization: Shevchenko National University – sequence: 5 givenname: L. A. surname: Bulavin fullname: Bulavin, L. A. organization: Shevchenko National University |
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| Cites_doi | 10.1038/srep41898 10.1002/app.1965.070091106 |
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| Copyright | Pleiades Publishing, Ltd. 2020 COPYRIGHT 2020 Springer Pleiades Publishing, Ltd. 2020. |
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| References | BukhmirovV. V.RakutinaD. V.SolnyshkovaYu. S.Reference Materials for Solving Problems on the Heat and Mass Transfer Course2009IvanovoGOU VPO IGEU IsakovichM. A.General Acoustics1973MoscowNauka HsuK. L.KlineD. E.TomlinsonJ. N.J. Appl. Polym. Sci.19659356710.1002/app.1965.070091106 DzhashitovV. E.PankratovV. M.Sensors, Devices and Systems for Aerospace and Marine Instrumentation under Thermal Conditions2005St. PetersburgElektropribor ShashkovA. G.VolokhovG. M.AbramenkoT. N.KozlovV. P.Methods for Determining Thermal conductivity and Thermal Diffusivity1973MoscowEnergiya ZubarevD. N.Nonequilibrium Statistical Thermodynamics1971MoscowNauka GuiY. X.KhannaF. C.SuZ. B.Thermal Field Theories and Their Applications1995SingaporeWorld Scientific LyubimovaD. A.PonomarevS. V.DivinA. G.Measurement of the Thermophysical Properties of Insulating Materials by the Method of the Regular Regime of the Third Kind2014TambovTG TU ChirkinV. S.Thermophysical Properties of Nuclear Technology Materials1968MoscowAtomizdat NovichenokL. N.Shul’manZ. P.Thermophysical Properties of Polymers1971MinskNauka Tekhnika AndreevV. K.GaponenkoYu. A.GoncharovaO. N.PukhnachevV. V.Modern Mathematical Models of Convection2008MoscowFizmatlit1257.76001 BuerkleM.AsaiY.Sci. Rep.20177418982017NatSR...741898B10.1038/srep41898 M. Buerkle (3561_CR12) 2017; 7 L. N. Novichenok (3561_CR10) 1971 D. A. Lyubimova (3561_CR6) 2014 A. G. Shashkov (3561_CR5) 1973 M. A. Isakovich (3561_CR7) 1973 V. K. Andreev (3561_CR2) 2008 V. V. Bukhmirov (3561_CR9) 2009 D. N. Zubarev (3561_CR1) 1971 V. E. Dzhashitov (3561_CR4) 2005 V. S. Chirkin (3561_CR8) 1968 K. L. Hsu (3561_CR11) 1965; 9 Y. X. Gui (3561_CR3) 1995 |
| References_xml | – reference: GuiY. X.KhannaF. C.SuZ. B.Thermal Field Theories and Their Applications1995SingaporeWorld Scientific – reference: LyubimovaD. A.PonomarevS. V.DivinA. G.Measurement of the Thermophysical Properties of Insulating Materials by the Method of the Regular Regime of the Third Kind2014TambovTG TU – reference: IsakovichM. A.General Acoustics1973MoscowNauka – reference: NovichenokL. N.Shul’manZ. P.Thermophysical Properties of Polymers1971MinskNauka Tekhnika – reference: ChirkinV. S.Thermophysical Properties of Nuclear Technology Materials1968MoscowAtomizdat – reference: HsuK. L.KlineD. E.TomlinsonJ. N.J. Appl. Polym. Sci.19659356710.1002/app.1965.070091106 – reference: ShashkovA. G.VolokhovG. M.AbramenkoT. N.KozlovV. P.Methods for Determining Thermal conductivity and Thermal Diffusivity1973MoscowEnergiya – reference: AndreevV. K.GaponenkoYu. A.GoncharovaO. N.PukhnachevV. V.Modern Mathematical Models of Convection2008MoscowFizmatlit1257.76001 – reference: BukhmirovV. V.RakutinaD. V.SolnyshkovaYu. S.Reference Materials for Solving Problems on the Heat and Mass Transfer Course2009IvanovoGOU VPO IGEU – reference: DzhashitovV. E.PankratovV. M.Sensors, Devices and Systems for Aerospace and Marine Instrumentation under Thermal Conditions2005St. PetersburgElektropribor – reference: ZubarevD. N.Nonequilibrium Statistical Thermodynamics1971MoscowNauka – reference: BuerkleM.AsaiY.Sci. Rep.20177418982017NatSR...741898B10.1038/srep41898 – volume-title: Sensors, Devices and Systems for Aerospace and Marine Instrumentation under Thermal Conditions year: 2005 ident: 3561_CR4 – volume-title: Nonequilibrium Statistical Thermodynamics year: 1971 ident: 3561_CR1 – volume-title: Measurement of the Thermophysical Properties of Insulating Materials by the Method of the Regular Regime of the Third Kind year: 2014 ident: 3561_CR6 – volume-title: Thermophysical Properties of Polymers year: 1971 ident: 3561_CR10 – volume-title: Reference Materials for Solving Problems on the Heat and Mass Transfer Course year: 2009 ident: 3561_CR9 – volume-title: General Acoustics year: 1973 ident: 3561_CR7 – volume-title: Thermal Field Theories and Their Applications year: 1995 ident: 3561_CR3 – volume: 7 start-page: 41898 year: 2017 ident: 3561_CR12 publication-title: Sci. Rep. doi: 10.1038/srep41898 – volume-title: Methods for Determining Thermal conductivity and Thermal Diffusivity year: 1973 ident: 3561_CR5 – volume-title: Thermophysical Properties of Nuclear Technology Materials year: 1968 ident: 3561_CR8 – volume-title: Modern Mathematical Models of Convection year: 2008 ident: 3561_CR2 – volume: 9 start-page: 3567 year: 1965 ident: 3561_CR11 publication-title: J. Appl. Polym. Sci. doi: 10.1002/app.1965.070091106 |
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| SubjectTerms | Cellulose Classical and Continuum Physics Dielectric films Electric properties Experimental Instruments and Technique Frequency ranges Heat conductivity Heat transfer Nuclear energy Physics Physics and Astronomy Polymer films Thermal conductivity Thermodynamics Thin films |
| Title | Frequency Dependence of the Complex Conductivity of Thin Polymer Films |
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