Preparation of aqueous silane‐graphene oxide co‐modified cellulose fibers/natural rubber composites via flash extrusion dispersion process

IF 3.2 4区 工程技术 Q2 ENGINEERING, CHEMICAL
Xiangxu Li, Lei Wu, Qingxiang Lai, Yifan Xu, He Wang, Chuansheng Wang, Huiguang Bian
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Abstract

Cellulose fibers were modified via aqueous silane‐graphene oxide (GO) coordination by flash drying and extrusion dispersion process. The adsorption of GO reduced the polarity of the cellulose fiber surface and attenuated the agglomeration effect between the cellulose fibers, thus facilitating the dispersion of fibers in the rubber matrix. Adding aqueous 3‐aminopropylsilane oligomer (8150) incorporated active sites on the surface of cellulose fibers, thereby improving the interfacial binding properties of cellulose nano fibers (CNFs) and natural rubber (NR). After blending the modified CNFs with NR latex, high‐temperature flocculation was performed using an atomised flash device. Finally, CNF/NR was pre‐dispersed through a twin‐screw extruder, after which a CNF/NR masterbatch with excellent performance was prepared. Experimental results revealed that composites prepared using GO‐8150 via the flash drying‐twin‐screw dispersion process exhibited excellent dispersion characteristics, processing properties, mechanical properties, rolling resistance, wear resistance, and heat generation properties. Compared with traditional dry mixing, the composites prepared by flash drying‐twin‐screw dispersion process showed a 16.95% increase in tensile strength, 16.07% increase in 300% constant elongation, 19.01% reduction in abrasion consumption, 42.26% reduction in rolling resistance, and a reduction in the Payne effect. This study offers an efficient and environmentally friendly method for the high‐value utilization of natural fibers and the preparation of NR composites with excellent properties, while providing a green and nonpolluting modification process with no acidic liquid discharge.Highlights GO‐8150 reduces the polarity of the fibers and promotes dispersion. The flash extrusion dispersion process achieves green flocculation. 42% lower rolling resistance for rubber composites.
通过闪蒸挤压分散工艺制备水性硅烷-氧化石墨烯共改性纤维素纤维/天然橡胶复合材料
通过闪蒸干燥和挤压分散工艺,对纤维素纤维进行硅烷-氧化石墨烯(GO)水配位改性。GO 的吸附降低了纤维素纤维表面的极性,减弱了纤维素纤维之间的团聚效应,从而促进了纤维在橡胶基质中的分散。添加水性 3-aminopropylsilane 低聚物(8150)可在纤维素纤维表面形成活性位点,从而改善纤维素纳米纤维(CNFs)和天然橡胶(NR)的界面结合性能。将改性 CNF 与天然橡胶胶乳混合后,使用雾化闪光装置进行高温絮凝。最后,通过双螺杆挤出机预分散 CNF/NR,制备出性能优异的 CNF/NR 母料。实验结果表明,通过闪蒸干燥-双螺杆分散工艺使用 GO-8150 制备的复合材料具有优异的分散特性、加工性能、机械性能、滚动阻力、耐磨性和发热性能。与传统的干混工艺相比,采用闪蒸干燥-双螺杆分散工艺制备的复合材料的拉伸强度提高了 16.95%,300% 恒定伸长率提高了 16.07%,磨耗降低了 19.01%,滚动阻力降低了 42.26%,佩恩效应也有所降低。这项研究为高价值利用天然纤维和制备具有优异性能的 NR 复合材料提供了一种高效、环保的方法,同时提供了一种绿色、无污染、无酸性液体排放的改性工艺。闪蒸挤出分散工艺可实现绿色絮凝。橡胶复合材料的滚动阻力降低 42%。
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来源期刊
Polymer Engineering and Science
Polymer Engineering and Science 工程技术-高分子科学
CiteScore
5.40
自引率
18.80%
发文量
329
审稿时长
3.7 months
期刊介绍: For more than 30 years, Polymer Engineering & Science has been one of the most highly regarded journals in the field, serving as a forum for authors of treatises on the cutting edge of polymer science and technology. The importance of PE&S is underscored by the frequent rate at which its articles are cited, especially by other publications - literally thousand of times a year. Engineers, researchers, technicians, and academicians worldwide are looking to PE&S for the valuable information they need. There are special issues compiled by distinguished guest editors. These contain proceedings of symposia on such diverse topics as polyblends, mechanics of plastics and polymer welding.
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