纳米粘土碱处理椰壳增强复合材料摩擦学分析

R. Ganapathy Srinivasan, N. Pragadish, E. Esakkiraj, M. Selvam, C. Rajaravi
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引用次数: 0

摘要

本文对碱处理的纳米粘土椰壳增强复合材料进行了摩擦学分析。本研究旨在分析椰壳增强聚合物复合材料与传统合成纤维的力学性能。还考虑了MMT粘土对材料力学性能的具体影响。实验方法包括使用压缩成型制造,并对椰子鞘进行各种处理以改善其机械性能。分析了试样的微观结构、拉伸、弯曲和冲击特性。结果表明,碱处理后的椰子皮表面质量优于未处理的椰子皮。此外,MMT粘土的加入改善了粘接和表面积覆盖,从而获得更好的力学性能。然而,处理后的椰子鞘试样脆性增加,降低了其在冲击试验中的能量吸收。总的来说,该研究强调了椰子鞘作为天然纤维增强聚合物复合材料的潜力,以及MMT粘土对其机械性能的影响。
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Tribology analysis of MMT nanoclay alkali-treated coconut sheath reinforced hybrid composite
This research paper focuses on the tribology analysis of MMT - Montmorillonite nanoclay alkali-treated coconut sheath reinforced hybrid composite. The study aims to analyze the mechanical properties of coconut sheath reinforced polymer composites as compared to traditional synthetic fibers. The specific impact of MMT clay on the material’s mechanical properties is also considered. The experimental method involves the use of compression molding for fabrication, and various treatments are applied to the coconut sheath to improve its mechanical properties. The microstructure, tensile, flexural, and impact characterization of the specimens are analyzed. The results indicate that alkali-treated coconut sheath outperforms untreated coconut sheath in terms of surface quality. Additionally, the addition of MMT clay improves the bonding and surface area coverage, resulting in better mechanical properties. However, the brittleness of the treated coconut sheath specimen increased, reducing its energy absorption in impact tests. Overall, the study highlights the potential of coconut sheath as a natural fiber reinforcement for polymer composites and the impact of MMT clay on its mechanical properties.
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