快速形成用戊二醛固化的碳纳米管-天然橡胶薄膜,以降低渗流阈值浓度。

0 MATERIALS SCIENCE, MULTIDISCIPLINARY Discover nano Pub Date : 2024-02-19 DOI:10.1186/s11671-024-03970-5
Rawiporn Promsung, Arthittaya Chuaybamrung, Antonia Georgopoulou, Frank Clemens, Yeampon Nakaramontri, Jobish Johns, Nussana Lehman, Ladawan Songtipya, Ekwipoo Kalkornsurapranee
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引用次数: 0

摘要

以戊二醛为固化剂,通过乳胶混炼法制备了不同 CNT 含量(0、1、2、3、4 和 5 phr)的碳纳米管(CNT)填充天然橡胶(NR)复合材料。这项工作旨在改善 CNT 填充 NR 硫化物的电气和机械性能。使用分散分级机、光学显微镜和扫描电子显微镜对 NR 复合材料的 CNT 分散进行了澄清。根据著名的渗流理论,研究了存在 CNT 网络的 NR 复合材料的电气性能。结果表明,当 CNT 的含量为 0.98 phr 时,NR 复合材料表现出较低的渗流阈值。此外,CNT 在 NR 复合材料中形成了三维网络,其 t 值为 1.67。添加碳纳米管后,NR 复合材料在模量、拉伸强度和硬度方面的机械性能都有所提高,在添加 1 phr 碳纳米管时达到最佳机械性能。因此,本研究的新颖之处在于,使用 GA 作为低温固化剂可以制备出导电橡胶胶乳薄膜,从而增强其良好的电气性能。此外,这项研究还发现,对于需要在低应变下具有高模量的导电橡胶胶乳薄膜来说,这项工作是有益的。该系统的另一个优点是使用 GA 在低温下进行固化,而且易于加工。
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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Rapid formation of carbon nanotubes-natural rubber films cured with glutaraldehyde for reducing percolation threshold concentration.

Carbon nanotubes (CNTs) filled natural rubber (NR) composites with various CNT contents at 0, 1, 2, 3, 4 and 5 phr were prepared by latex mixing method using glutaraldehyde as curing agent. This work aims to improve the electrical and mechanical properties of CNT filled NR vulcanizates. The CNT dispersion of NR composites was clarified using dispersion grader, optical microscopy and scanning electron microscopy. The electrical properties of NR composites in the existing of CNT networks were studied by following the well-known percolation theory. It was observed that the NR composites exhibited low percolation threshold at 0.98 phr of CNT. Moreover, a three-dimensional network formation of CNT in the NR composites was observed and it is indicated by the t-value of 1.67. The mechanical properties of NR composites in terms of modulus, tensile strength and hardness properties were increased upon the addition of CNT to the optimum mechanical properties at 1 phr of CNT. Therefore, the present work is found the novelty of the study that the conductive rubber latex film can be produced using GA as low-temperature curing agent which enhanced good electrical properties. Moreover, this work is found to be beneficial in case of conductive rubber latex film that requires high modulus at low strain. The additional advantage of this system is the curing process occurs at low-temperature using GA and it can be easily processed.

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