Processing, thermal and mechanical properties of composite laminates with natural fibers prepregs

Vilson Dalla Libera Junior, L. A. Teixeira, S. Amico, Sandra Maria da Luz
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引用次数: 1

Abstract

This work manufactured prepregs by impregnating discontinuous curaua fibers with B-stage epoxy resin. The prepreg layers were then stacked to produce laminates by hot compression. Alkaline treatments were previously applied to the curaua fibers to improve their interface with the polymer matrix. Then, the prepregs and the final composites were studied regarding their thermal, dynamic mechanical, mechanical, and morphological behavior. The treatments promoted defibrillation by removing lignin and hemicellulose from the fibers, which allowed better impregnation of the treated fibers with epoxy resin. In general, laminates that used treated fibers exhibited the largest storage modulus in the glassy region. The mechanical results showed the laminates produced with treated fibers prepregs presented a highest tensile and flexural resistance than those manufactured with untreated fibers and neat epoxy resin. The NaOH-treated curaua/epoxy laminate exhibited high tensile strength (56.2 MPa) and modulus (3.3 GPa). Overall, fracture morphology indicated better fiber adhesion for the treated fiber composites. The results demonstrate that natural fibers prepregs can be successfully produced and present proper physical and mechanical behavior in components.
含天然纤维预浸料的复合层压板的加工、热性能和机械性能
本工作是用b级环氧树脂浸渍不连续的curaua纤维来制备预浸料。然后通过热压缩将预浸料层堆叠成层压板。碱性处理以前应用于curaua纤维,以改善其与聚合物基体的界面。然后,对预浸料和最终复合材料的热性能、动态力学性能、力学性能和形态性能进行了研究。这些处理通过去除纤维中的木质素和半纤维素来促进除颤,这使得处理过的纤维与环氧树脂更好地浸渍。一般来说,使用处理过的纤维的层压板在玻璃区表现出最大的存储模量。力学结果表明,与未经处理的纤维和纯环氧树脂制备的层压板相比,经处理的纤维预浸料制备的层压板具有最高的抗拉伸和抗弯曲性能。naoh处理的curaua/epoxy层压板具有较高的抗拉强度(56.2 MPa)和模量(3.3 GPa)。总的来说,断裂形貌表明处理后的纤维复合材料具有更好的纤维粘附性。结果表明,天然纤维预浸料是可以成功制备的,并且在构件中具有良好的物理力学性能。
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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