Reprocessable and Recyclable Self-Healing Natural Rubber/Carbon Black Composite Based on Metal Thiolate Ionic Network

Noor Faezah Mohd Sani, Lai Mei Fen, R. K. Shuib
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Abstract

Reprocessable and recyclable self-healing rubber composites were fabricated by mixing natural rubber (NR) with carbon black (CB) filler in the presence of zinc thiolate (ZT) to form the ionic association in the rubber system. This work investigated and compared the unfilled and natural rubber filled with 5phr of carbon black. The recycling process was repeated three times, and the mechanical performance was measured each time. Tensile strength was increased by more than 430% for unfilled rubber and 520% for NR/5CB composites after the third recycling process. Tear strength was also increased with the number of the recycling process. According to a welding test ability, the developed materials showed potential for repair. Scanning electron micrographs revealed that as the recycling number increased, the white spot of ZT responsible for generating the ionic network reduced as more ZT was converted into Zn2+ salt bonding.
基于硫醇酸金属离子网的可再加工和可回收的自愈合天然橡胶/炭黑复合材料
通过将天然橡胶(NR)与炭黑(CB)填料在硫酸锌(ZT)的存在下混合,在橡胶体系中形成离子结合,制造出了可再加工和可回收的自愈合橡胶复合材料。本研究对未填充和填充 5phr 炭黑的天然橡胶进行了研究和比较。回收过程重复了三次,每次都对机械性能进行了测量。在第三次循环过程后,未填充橡胶的拉伸强度提高了 430%以上,而 NR/5CB 复合材料的拉伸强度提高了 520%。撕裂强度也随着回收处理次数的增加而提高。根据焊接测试能力,所开发的材料具有修复潜力。扫描电子显微照片显示,随着循环次数的增加,负责生成离子网络的 ZT 白点减少,因为更多的 ZT 转化为 Zn2+ 盐键。
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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