Study on the effect of wet mixing process on the properties of EPDM rubber/fiber/hollow glass microsphere composite system

IF 2.7 3区 化学 Q2 POLYMER SCIENCE Journal of Applied Polymer Science Pub Date : 2024-09-12 DOI:10.1002/app.56270
Mingchao Wang, Yuan Wang, Xin Chen, Li Liu, Yetao Zhang, Chen Liu
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Abstract

Compared to the traditional open mixing process used for the production of the rubber composites, wet mixing process is a lower shear force mixing method. This article revealed the influence of the open mixing process and the wet mixing process on the microstructure, density, mechanical properties, and ablation performance of ethylene propylene diene monomer (EPDM) rubber/fiber/hollow glass microsphere composite system. The results showed that the wet mixing process increased the fiber length by more than 300% compared to the open mixing process, while the fragmentation rate of the hollow glass beads was reduced by 94.4%, these effectively maintained the structural integrity of the fibers and the hollow glass microsphere filler. By using the wet mixing process, the density of EPDM composite materials can be reduced by about 20%, and the tensile strength and ablation resistance of these composites were also significantly improved. Compared to polyimide fiber and aramid fiber short fibers, the wet mixing process of solution-based rubber had a more significant effect on improving the length and ablation resistance of phenolic fiber and carbon fiber fibers which having poor shear strength.

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研究湿法混合工艺对三元乙丙橡胶/纤维/中空玻璃微球复合材料体系性能的影响
与用于生产橡胶复合材料的传统开炼工艺相比,湿法混炼工艺是一种剪切力较低的混炼方法。本文揭示了开放式混炼工艺和湿法混炼工艺对乙丙橡胶/纤维/中空玻璃微球复合材料体系的微观结构、密度、力学性能和烧蚀性能的影响。结果表明,与开放式混炼工艺相比,湿法混炼工艺使纤维长度增加了 300% 以上,而空心玻璃微珠的破碎率降低了 94.4%,这些都有效地保持了纤维和空心玻璃微球填料的结构完整性。通过使用湿法混合工艺,三元乙丙橡胶(EPDM)复合材料的密度可降低约 20%,这些复合材料的拉伸强度和耐烧蚀性也得到了显著提高。与聚酰亚胺纤维和芳纶短纤维相比,溶液型橡胶的湿法混炼工艺对改善剪切强度较差的酚醛纤维和碳纤维的长度和耐烧蚀性有更明显的效果。
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来源期刊
Journal of Applied Polymer Science
Journal of Applied Polymer Science 化学-高分子科学
CiteScore
5.70
自引率
10.00%
发文量
1280
审稿时长
2.7 months
期刊介绍: The Journal of Applied Polymer Science is the largest peer-reviewed publication in polymers, #3 by total citations, and features results with real-world impact on membranes, polysaccharides, and much more.
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