碳纳米管对热固性塑料和弹性体电导率的影响

A. Shchegolkov, F. Komarov, I. Parfimovich, O. Milchanin, A. Shchegolkov, A. V. Khrobak, A. V. Semenkova
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引用次数: 1

摘要

在导电聚合物复合材料技术中,纳米级几何参数改性剂的应用是当前研究的热点。这种材料包括单壁和多壁碳纳米管。使用多壁碳纳米管作为聚合物的添加剂,可以在引入的碳纳米管的低百分比比下获得与电导率表现相关的良好结果。该研究考虑了两种不同类型的聚合物:环氧树脂和硅树脂。为了进行修饰,作者使用了多层碳纳米管(MCNT)。对于有机硅,作者研究了机械变形时的电导率,特别是不同扭转角度下的电导率。研究了不同体积密度的MCNT对复合材料电导率的影响。在100 Hz的测量频率下,“Taunit - M”MCNT复合材料中的添加剂浓度分别为1、2、4和8 wt.%,电导率比“Taunit”MCNT复合材料中的co - M -posites高出约2个数量级。由MCNT修饰的聚合物的比表面积为202.3 m2/g,具有较低的比电阻率(3.8 × 105 Ohm×cm)。MCNT改进剂的比表面积为202.3 m2/g,比其他类型的MCNT小,体积密度为42.6 kg/m3,可以获得最低的电阻率。具有541.5 m2/g高比表面积的MCNT比具有202.3 m2/g比表面积的MCNT产生的电导率低2个数量级。研究发现,在MCNT的质量含量为1.5和2时。%,复合材料的特点是在扭转角从0到900°时电阻率增加。
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The influence of carbon nanotubes on the electric conductivity of thermosetting plastics and elastomers
: In the technology of electricity-conducting polymer composites, the up-to-date topic is the application of modifiers with nanoscale geometric parameters. Such materials are both single-wall and multi-wall carbon nanotubes. The use of multi-wall carbon nanotubes as additives to polymers allows achieving good results associated with the electrical conductivity manifestation at the low percentage ratios of the introduced carbon nanotubes. The study considered two different types of polymers: epoxy resin and silicone. For modification, the authors used the multilayer carbon nanotubes (MCNT). For silicone, the authors studied the electrical conductivity at the mechanical deformations, in particular, at torsion with different twist angles. The study considered the influence of MCNT with different bulk density on the electrical conductivity of composites. At the 100 Hz measurement frequencies for identical additive concentrations with 1, 2, 4, and 8 wt.% in composites with the “Taunit - M” MCNT, the conductivity is about by 2 orders of magnitude larger than in co m-posites with “Taunit” MCNT. A polymer modified by an MCNT with a specific surface a rea of 202.3 m2/g has a lower specific resistivity (3.8 × 105 Ohm×cm). The MCNT modifier with a specific surface area of 202.3 m2/g, which is smaller in comparison with other types of MCNT, and a bulk density of 42.6 kg/m3 allows obtaining the lowest electrical resistivity. An MCNT with a high specific surface area of 541.5 m2/g causes the formation of electrical conductivity by 2 orders of magnitude lower than an MCNT with a specific surface area of 202.3 m2/g. The study identified that at the mass content of MCNT 1.5 and 2 mass.%, the composites are characterized by an increase in electrical resistivity at torsion angles from 0 to 900°.
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