Processing Characterization of Sisal/Epoxy Prepregs

Journal of Research Updates in Polymer Science Pub Date : 2021-02-26 DOI:10.6000/1929-5995.2021.10.6

Sayra Oliveira Silva, L. A. Teixeira, A. Gontijo, S. Luz

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引用次数: 2

Abstract

: Quality control to obtain composite laminates is frequently applied to synthetic fibers/epoxy prepregs. The gel time test, resin, volatiles and fiber content, drape measurement and tack tests together with water absorption capacity are methods currently employed. However, for natural fibers prepregs there is a gap in the literature, which makes their application difficult. Thus this work will investigate sisal fibers, which have low cost, high biodegradability and low specific weight, following the common methods to manufacture composites from natural fibers/epoxy prepregs. First, the prepregs were prepared by hand lay-up, aligning the fibers with epoxy, keeping 15% by weight content of fiber. After the quality control characterization, 3 mm thickness composite was prepared by using a press, and tensile tests and scanning electron microscopy (SEM) were applied. As a result, the resin fraction values and the solid content of the matrix showed little variation between the different samples. The natural fibers prepregs absorbed water quickly in the initial stage until reaching the saturation level. The NaOH-treated sisal/epoxy prepreg had a tension of 71.06 ± 8.28 kPa for the tack test and tensile strength of 69.24 ± 11.69 MPa. Finally, the NaOH-treated sisal 15 wt%/epoxy resulted in composites with a better performance than the neat epoxy resin. There was good adhesion between the fibers and matrix, as confirmed by SEM and mechanical tests.

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剑麻/环氧预浸料的工艺表征

:合成纤维/环氧预浸料通常采用质量控制来获得复合层压板。凝胶时间试验、树脂、挥发物和纤维含量、垂度测量和粘性试验以及吸水能力是目前采用的方法。然而，对于天然纤维预浸料，文献中存在空白，这使得它们的应用变得困难。因此，本研究将根据天然纤维/环氧预浸料制备复合材料的常用方法，研究具有低成本、高生物降解性和低比重的剑麻纤维。首先，通过手工铺层制备预浸料，将纤维与环氧树脂对齐，保持纤维重量含量15%。在进行质量控制表征后，采用压片法制备了厚度为3 mm的复合材料，并进行了拉伸试验和扫描电镜(SEM)分析。结果表明，树脂分数值和基体固含量在不同样品间变化不大。天然纤维预浸料在初始阶段吸水速度较快，直至达到饱和水平。经naoh处理的剑麻/环氧预浸料在黏着试验中拉力为71.06±8.28 kPa，抗拉强度为69.24±11.69 MPa。最后，经naoh处理的剑麻/环氧树脂复合材料的性能优于纯环氧树脂。SEM和力学试验结果表明，纤维与基体具有良好的粘附性。

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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来源期刊

Journal of Research Updates in Polymer Science

CiteScore

0.60

自引率

0.00%

发文量