SYNTHESIS AND CHARACTERIZATION OF MECHANICAL AND PHYSICAL PROPERTIES OF FALSE BANANA (ʾƏNÄSÄTƏ) FIBER REINFORCED COMPOSITE MATERIAL

Ethiopian International Journal of Engineering and Technology Pub Date : 2023-05-10 DOI:10.59122/134cfc10

Belay Taye, Zewdie Alemayehu

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Abstract

The use of environmentally friendly materials has recently been promoted due to increased awareness of environmental issues. To offer a better world for future generations, we must decide what we will utilize and serve today. When resources and products reach the end of their useful lives, resource preservation and degradation become issues. Biodegradable products manufactured from renewable resources address these issues. This research aims to develop a biodegradable resource of false banana (ʾənäsätə) fiber as reinforcement with polyester resin composite material manufactured by hand layup method at room temperature. The mechanical and physical properties of the produced sample were investigated. include tensile, flexural, impact strength, and water absorption. The fiber surface was treated with NaOH alkaline in distilled water solution. In composites, the fiber orientations were 0o, 90o, 45o/-45o, 0o/90o, and chopped, at 40% fiber volume fraction. The sample's production process was performed successfully. A chopped sample is an easier manufacturing process relative to the other. As the result, 0o fiber direction scored the highest tensile strength, which is 181.41MPa. In the flexural and impact strength test, a 90o oriented fiber was observed with the highest value, which is 81.43 MPa and 9.75 joules, respectively. The samples were immersed in distilled water until saturated. The highest percentage of water absorption was 45o/-45o oriented fiber. Many researchers have recently shown interest in natural fiber composites material for aerospace and automotive applications, such as aircraft radomes and interior cabin components, as well as remarks on natural fiber composites' future trends and problems. This article provides readers with a positive perspective and piques industry players' interest in the potential of using natural fiber composites in aerospace applications to improve current aerospace material performance, particularly in terms of lightweight and environmental sustainability. Keywords: Composite, Fiber, Manufacturing, Matrix, Reinforcement, Sustainability

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假香蕉(ƏnÄsÄtƏ)纤维增强复合材料的合成及力学物理性能表征

最近，由于人们对环境问题的认识提高，环保材料的使用得到了促进。为了给子孙后代提供一个更美好的世界，我们必须决定我们今天将利用和服务什么。当资源和产品达到其使用寿命时，资源的保存和退化就成为问题。由可再生资源制造的可生物降解产品解决了这些问题。本研究旨在开发一种可生物降解的假香蕉纤维资源，用室温手工铺层法制备聚酯树脂复合材料作为增强材料。对所制备样品的力学和物理性能进行了研究。包括拉伸、弯曲、冲击强度和吸水率。用蒸馏水溶液对纤维表面进行碱性氢氧化钠处理。在复合材料中，当纤维体积分数为40%时，纤维取向分别为0°、90°、45°/-45°、0°/90°和短切。样品的生产过程顺利进行。相对于其他样品，切碎的样品是一个更容易的制造过程。结果表明，纤维方向的拉伸强度最高，为181.41MPa。在抗弯和冲击强度测试中，90°取向纤维的抗弯和冲击强度最高，分别为81.43 MPa和9.75焦耳。样品浸泡在蒸馏水中直至饱和。吸水率最高的是45度/-45度取向纤维。近年来，许多研究人员对航空航天和汽车领域的天然纤维复合材料(如飞机天线罩和机舱内部部件)表现出了兴趣，并对天然纤维复合材料的未来趋势和问题发表了看法。这篇文章为读者提供了一个积极的视角，激发了行业参与者对在航空航天应用中使用天然纤维复合材料的潜力的兴趣，以提高当前航空航天材料的性能，特别是在轻量化和环境可持续性方面。关键词:复合材料，纤维，制造，基体，增强，可持续性

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Ethiopian International Journal of Engineering and Technology

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