Mechanical characterization and study on morphological properties: Natural and agro waste utilization of reinforced polyester hybrid composites

V Vinoth, S Sathiyamurthy, N Ananthi, S Jayabal
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Abstract

Eco-conscious products are currently garnering significant attention due to their abundant availability and versatile applications in various engineering contexts. The distinctive properties of natural fibers make them readily substitutable for synthetic fibers. A substantial one million tonnes of fiber waste, primarily composed of paddy straw fiber, is generated globally. The research emphasis revolves around the adoption of the Waste to Wealth technique, a highly efficient process aimed at repurposing waste materials. This approach plays a pivotal role in curbing air pollution, specifically by preventing the incineration of the residual portion of paddy straw fiber on agricultural lands. The study involves the collection of paddy straw fiber from agricultural fields, with subsequent extraction facilitated by an extracting machine. Employing a chemical treatment process enhances the adhesion properties between the fiber and matrix. Consequently, comprehensive fiber tests, including the single fiber test, fiber tenacity, and fiber fineness, were meticulously examined for both treated and untreated fibers. The reinforcements and matrix were taken by the weight percentage of 50:50 with different fiber length (25, 50, 75, 100 mm) using the compression moulding machine with 300 mm × 300 mm × 3 mm dimensions. After making the laminates, the samples were cut as per the ASTM standard. The mechanical and morphological behavior of the hybrid fiber-reinforced polyester composites were evaluated, and the water absorption property in the concerned laminates was studied.
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机械表征和形态特性研究:利用天然废料和农业废料生产增强聚酯混合复合材料
具有生态意识的产品因其丰富的可获得性和在各种工程领域的广泛应用而备受关注。天然纤维的独特性能使其很容易替代合成纤维。全球产生的纤维废料高达一百万吨,主要由稻草纤维组成。研究重点围绕着 "变废为宝 "技术的采用,这是一种旨在重新利用废料的高效工艺。这种方法在遏制空气污染方面发挥着关键作用,特别是通过防止在农田中焚烧稻草纤维的剩余部分。这项研究涉及从农田中收集稻草纤维,然后用提取机进行提取。采用化学处理工艺可增强纤维与基质之间的粘附性能。因此,对处理过和未处理过的纤维都进行了全面的纤维测试,包括单纤维测试、纤维韧性和纤维细度。使用尺寸为 300 mm × 300 mm × 3 mm 的压缩成型机,按 50:50 的重量比例取不同纤维长度(25、50、75、100 mm)的增强纤维和基体。制成层压板后,按照 ASTM 标准切割样品。评估了混合纤维增强聚酯复合材料的机械和形态行为,并研究了相关层压板的吸水性能。
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来源期刊
CiteScore
3.80
自引率
10.00%
发文量
625
审稿时长
4.3 months
期刊介绍: The Journal of Mechanical Engineering Science advances the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in engineering.
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