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Complexity. Mind. Postnonclassic Pub Date : 2018-12-25 DOI:10.12737/article_5c220125b498c7.54405357

A. Bannov, O. Nazarenko, E. Maksimovskii, M. Popov, I. S. Berdyugina

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Abstract

Reduction of flammability and improvement of thermal stability of polymers during heating can be achieved by the introduction of fillers. Epoxy composites filled with different loadings of multi-walled carbon nanotubes (MWCNTs) and expanded graphite (EG) were prepared. The thermal oxidation stability of the prepared samples was investigated under heating in an oxidizing atmosphere using thermal analysis. The hardness was measured using the Shore D hardness test. The flammability of the prepared composites was evaluated by the ignition temperature and time-to-ignition. It was found that there was a rise in temperature corresponding to a 5% weight loss during heating for both epoxy/MWCNT and epoxy/EG composites compared to neat epoxy resin. The Shore D hardness of epoxy/MWCNT composites increased with content growth up to 0.1 wt.% and decreased with further concentration rise. The addition of MWCNTs and EG leads to an increase in the ignition temperature. It has been shown that MWCNTs improve the thermal behavior of epoxy resin in a low temperature region (below ~ 300 °C) whereas EG shows almost the same thermal behavior above 300 °C. The improvement of thermal properties can be achieved using MWCNTs and EG as fillers.

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通过引入填料可以降低聚合物在加热过程中的可燃性和提高热稳定性。制备了不同负载量的多壁碳纳米管(MWCNTs)和膨胀石墨(EG)填充环氧复合材料。用热分析法考察了所制备样品在氧化气氛中加热的热氧化稳定性。硬度采用邵氏D硬度试验测定。通过点火温度和点火时间对制备的复合材料的可燃性进行了评价。研究发现，与纯环氧树脂相比，环氧/MWCNT和环氧/EG复合材料在加热过程中温度升高，重量减轻5%。环氧树脂/MWCNT复合材料的邵氏D硬度随含量的增加而增加，当含量增加到0.1 wt.%时，邵氏D硬度随含量的增加而降低。MWCNTs和EG的加入导致了着火温度的升高。研究表明，MWCNTs改善了环氧树脂在低温区(低于~ 300℃)的热行为，而EG在300℃以上的热行为几乎相同。采用MWCNTs和EG作为填料可以改善材料的热性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Complexity. Mind. Postnonclassic

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