Effects of Two Pre-Treatment Methods on Water Absorption Property of Polyester-Fibre Composites

P. N. Obianuko, T. U. Onuegbu
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Abstract

The use of plant fibres as reinforcement in composite materials is finding increasing interest in the automotive and building industry, and the properties of plant fibre composites have been addressed in numerous research studies. The replacement of synthetic fibres with natural fibres in composites is based on their renewable and environmentally friendly nature. The aim of this work is to investigate the effects of two chemical pre-treatment methods on the water absorption property of polyester-fibre composites. Fully grown kenaf (hibiscus cannabalis) bast fibres were manually retted from the stalk, washed, and cut into short fibre lengths of about 10 cm. One portion of the fibres was pre-treated with 5% pbw NaOH solution before immersing it in glacial acetic acid and then in acetic anhydride. The second portion was pre-treated with 5%pbw of NaOH and 0.125% of KMnO4 in acetone. The third portion of fibres was untreated to serve as control. The ground fibre was incorporated into ortho unsaturated polyester and cast with Teflon square shaped mould. The cured samples were weighed and immersed in water at room temperature until no further gain in weight was observed. The SEM of the fibres and the composites was taken. The results showed that the acetylation pre-treatment method reduced the water absorption property of the composites by a minimum of 46.0% across all fibre volume fractions while the permanganate pre-treatment reduced it by at least 25.5%. Chemical pre-treatment of fibres can therefore
两种预处理方法对聚酯-纤维复合材料吸水性能的影响
在汽车和建筑工业中,使用植物纤维作为复合材料的增强材料正受到越来越多的关注,植物纤维复合材料的性能已经在许多研究中得到解决。在复合材料中以天然纤维代替合成纤维是基于其可再生和环保的性质。研究了两种化学预处理方法对聚酯纤维复合材料吸水性能的影响。完全生长的红麻(大麻木槿)的韧皮纤维是手工从茎上提取出来的,清洗后切成大约10厘米长的短纤维。一部分纤维先用5% pbw的NaOH溶液预处理,然后浸泡在冰醋酸中,再浸泡在醋酸酐中。第二部分用5%pbw的NaOH和0.125%的KMnO4在丙酮中预处理。第三部分纤维未经处理作为对照。将地面纤维掺入邻不饱和聚酯中,用聚四氟乙烯方形模具浇注。将固化后的样品称重并浸泡在室温下的水中,直到没有进一步的重量增加。对纤维和复合材料进行了扫描电镜分析。结果表明,在所有纤维体积分数中,乙酰化预处理方法使复合材料的吸水性能降低至少46.0%,而高锰酸盐预处理方法使复合材料的吸水性能降低至少25.5%。因此,化学预处理纤维可以
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