Electromagnetic response of polymer composites with quasi-spherical nanocarbon inclusions: theory below the percolation threshold: Theory below the percolation threshold

Polina Kuzhir; Alesya Paddubskaya; Dzmitry Bychanok; Gregory Slepyan; Sergey Maksimenko; Jan Macutkevic; Dalius Seliuta; Gintaras Valusis; Juras Banys; Vladimir Kuznetsov; Sergey Moseenkov; Olga Shenderova; Philippe Lambin

doi:10.1515/POLYENG.2011.03

Electromagnetic response of polymer composites with quasi-spherical nanocarbon inclusions: theory below the percolation threshold: Theory below the percolation threshold

Polina Kuzhir, Alesya Paddubskaya, Dzmitry Bychanok, Gregory Slepyan, Sergey Maksimenko, Jan Macutkevic, Dalius Seliuta, Gintaras Valusis, Juras Banys, Vladimir Kuznetsov, Sergey Moseenkov, Olga Shenderova, Philippe Lambin

Research output: Contribution to journal › Article › peer-review

Abstract

The linear electromagnetic response of polymer composite with nanocarbon inclusions was modeled for a random multi-component system with particles and clusters of different shape and size. The results of the generalized effective medium Maxwell-Garnett theory below the percolation threshold demonstrate good coincidence with the experimental data for onion-like carbon-based polyurethane composites collected in a quasi-static regime (at 129 Hz) in a broad temperature range. © 2011 by Walter de Gruyter. Berlin. Boston.

Original language	English
Pages (from-to)	167-173
Number of pages	7
Journal	Journal of Polymer Engineering
Volume	31
DOIs	https://doi.org/10.1515/POLYENG.2011.03
Publication status	Published - 1 Jul 2011

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Kuzhir, P., Paddubskaya, A., Bychanok, D., Slepyan, G., Maksimenko, S., Macutkevic, J., Seliuta, D., Valusis, G., Banys, J., Kuznetsov, V., Moseenkov, S., Shenderova, O., & Lambin, P. (2011). Electromagnetic response of polymer composites with quasi-spherical nanocarbon inclusions: theory below the percolation threshold: Theory below the percolation threshold. Journal of Polymer Engineering, 31, 167-173. https://doi.org/10.1515/POLYENG.2011.03

@article{ef895e44e2fb4c81997d29158db5e7fa,

title = "Electromagnetic response of polymer composites with quasi-spherical nanocarbon inclusions: theory below the percolation threshold: Theory below the percolation threshold",

abstract = "The linear electromagnetic response of polymer composite with nanocarbon inclusions was modeled for a random multi-component system with particles and clusters of different shape and size. The results of the generalized effective medium Maxwell-Garnett theory below the percolation threshold demonstrate good coincidence with the experimental data for onion-like carbon-based polyurethane composites collected in a quasi-static regime (at 129 Hz) in a broad temperature range. {\textcopyright} 2011 by Walter de Gruyter. Berlin. Boston.",

author = "Polina Kuzhir and Alesya Paddubskaya and Dzmitry Bychanok and Gregory Slepyan and Sergey Maksimenko and Jan Macutkevic and Dalius Seliuta and Gintaras Valusis and Juras Banys and Vladimir Kuznetsov and Sergey Moseenkov and Olga Shenderova and Philippe Lambin",

year = "2011",

month = jul,

day = "1",

doi = "10.1515/POLYENG.2011.03",

language = "English",

volume = "31",

pages = "167--173",

journal = "Journal of Polymer Engineering",

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Kuzhir, P, Paddubskaya, A, Bychanok, D, Slepyan, G, Maksimenko, S, Macutkevic, J, Seliuta, D, Valusis, G, Banys, J, Kuznetsov, V, Moseenkov, S, Shenderova, O & Lambin, P 2011, 'Electromagnetic response of polymer composites with quasi-spherical nanocarbon inclusions: theory below the percolation threshold: Theory below the percolation threshold', Journal of Polymer Engineering, vol. 31, pp. 167-173. https://doi.org/10.1515/POLYENG.2011.03

Electromagnetic response of polymer composites with quasi-spherical nanocarbon inclusions: theory below the percolation threshold: Theory below the percolation threshold. / Kuzhir, Polina; Paddubskaya, Alesya; Bychanok, Dzmitry et al.
In: Journal of Polymer Engineering, Vol. 31, 01.07.2011, p. 167-173.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Electromagnetic response of polymer composites with quasi-spherical nanocarbon inclusions: theory below the percolation threshold

T2 - Theory below the percolation threshold

AU - Kuzhir, Polina

AU - Paddubskaya, Alesya

AU - Bychanok, Dzmitry

AU - Slepyan, Gregory

AU - Maksimenko, Sergey

AU - Macutkevic, Jan

AU - Seliuta, Dalius

AU - Valusis, Gintaras

AU - Banys, Juras

AU - Kuznetsov, Vladimir

AU - Moseenkov, Sergey

AU - Shenderova, Olga

AU - Lambin, Philippe

PY - 2011/7/1

Y1 - 2011/7/1

N2 - The linear electromagnetic response of polymer composite with nanocarbon inclusions was modeled for a random multi-component system with particles and clusters of different shape and size. The results of the generalized effective medium Maxwell-Garnett theory below the percolation threshold demonstrate good coincidence with the experimental data for onion-like carbon-based polyurethane composites collected in a quasi-static regime (at 129 Hz) in a broad temperature range. © 2011 by Walter de Gruyter. Berlin. Boston.

AB - The linear electromagnetic response of polymer composite with nanocarbon inclusions was modeled for a random multi-component system with particles and clusters of different shape and size. The results of the generalized effective medium Maxwell-Garnett theory below the percolation threshold demonstrate good coincidence with the experimental data for onion-like carbon-based polyurethane composites collected in a quasi-static regime (at 129 Hz) in a broad temperature range. © 2011 by Walter de Gruyter. Berlin. Boston.

UR - http://www.scopus.com/inward/record.url?scp=79961165186&partnerID=8YFLogxK

U2 - 10.1515/POLYENG.2011.03

DO - 10.1515/POLYENG.2011.03

M3 - Article

SN - 0334-6447

VL - 31

SP - 167

EP - 173

JO - Journal of Polymer Engineering

JF - Journal of Polymer Engineering

ER -

Electromagnetic response of polymer composites with quasi-spherical nanocarbon inclusions: theory below the percolation threshold: Theory below the percolation threshold

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