Dielectric Properties of Polymer Composites with Nanocarbon Allotropes

V. G. Shevchenko, P. M. Nedorezova, A. Ozerin
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Abstract

The paper describes the types and electrical properties of polymer nanocomposites containing carbon allotropes.Direct current conductivity, conduction in percolation systems, conduction mechanisms and factors controlling conductivity and percolation parameters are considered.The dielectric properties of polymer nanocomposites are presented, and experimental methods and methods for analyzing the results have also been described. An analysis of the data on ac electrical conductivity, including the contribution of nanofiller - interfacial polarization is presented. Special consideration is given to the role of nanocarbons as dielectric probes.The microwave properties of polymer nanocomposites, their use to estimate the distribution of nanofiller in the matrix, as well as practical applications for shielding and absorption of electromagnetic radiation have been analyzed.The use of carbon allotropes nanoparticles as fillers with high electrical conductivity provides polymer composites with useful electrical properties, including the ability to absorb highfrequency electromagnetic radiation.
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纳米碳同素异形体聚合物复合材料的介电性能
介绍了含碳同素异形体聚合物纳米复合材料的种类和电学性能。考虑了直流导电性、渗流体系中的导电性、导电性机理以及控制导电性和渗流参数的因素。介绍了聚合物纳米复合材料的介电性能,并介绍了实验方法和结果分析方法。分析了包括纳米填料-界面极化作用在内的交流电导率数据。特别考虑了纳米碳作为介电探针的作用。分析了聚合物纳米复合材料的微波特性、纳米填料在基体中的分布及其在屏蔽和吸收电磁辐射方面的实际应用。使用碳同素异形体纳米颗粒作为具有高导电性的填料,为聚合物复合材料提供了有用的电学性能,包括吸收高频电磁辐射的能力。
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