Dielectric properties of composite materials containing aligned carbon nanotubes


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Abstract

This paper presents a study of the electrodynamic properties of polymer-matrix composite materials containing a filler in the form of multiwalled carbon nanotubes. We have examined the effect of filler alignment in the composites on their interaction with electromagnetic radiation. The composite materials have an anisotropic electrical conductivity, dielectric permittivity, and electromagnetic radiation attenuation coefficient because an applied electric field produces a preferential filler alignment direction.

About the authors

O. S. Yakovenko

Shevchenko National University

Author for correspondence.
Email: alenka-ya@ukr.net
Ukraine, Volodymyrs’ka vul. 64/13, Kyiv, 01601

L. Yu. Matzui

Shevchenko National University

Email: alenka-ya@ukr.net
Ukraine, Volodymyrs’ka vul. 64/13, Kyiv, 01601

L. L. Vovchenko

Shevchenko National University

Email: alenka-ya@ukr.net
Ukraine, Volodymyrs’ka vul. 64/13, Kyiv, 01601

V. V. Oliynyk

Shevchenko National University

Email: alenka-ya@ukr.net
Ukraine, Volodymyrs’ka vul. 64/13, Kyiv, 01601

V. L. Launetz

Shevchenko National University

Email: alenka-ya@ukr.net
Ukraine, Volodymyrs’ka vul. 64/13, Kyiv, 01601

A. V. Trukhanov

Moscow Institute of Steel and Alloys (National University of Science and Technology); Scientific–Practical Materials Research Centre State Research and Production Association

Email: alenka-ya@ukr.net
Russian Federation, Leninskii pr. 4, Moscow, 119049; ul. Brovki 19, Minsk, 220072

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