Investigation of water and heat response to the compression property of raffia, bamboo and coconut fiber-reinforced-polyester composites

Obi LE, Uwanugo RG, Uchejiora M
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Abstract

The dearth of construction materials has been the bane of the global construction industry. In a bid to curb this menace, it becomes very imperative to source for construction materials from discarded and least costly materials from raffia, bamboo and coconut fibers. This research investigates the hydrothermal response of plant fiber-reinforced-polyester composites (PFRC). Imperical methods were used to determine the mechanical properties of PFRC (bamboo, raffia and coconut fiber composites), with the usage of Monasanto Tensometer testing machine. All the samples were chemically modified with 12.5g of sodium hydroxide. Numerical and micro-soft excel graphics were used to model compressive responses of the PFRCs. From the analyses, the compressive strengths of raffia, bamboo and coconut composites are 40, 45 and 38MPa respectively.
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烟叶、竹子和椰子纤维增强聚酯复合材料压缩性能的水热响应研究
建筑材料的缺乏一直是全球建筑业的祸根。为了遏制这一威胁,从废弃的、最便宜的、来自烟草、竹子和椰子纤维的材料中获取建筑材料变得非常必要。研究了植物纤维增强聚酯复合材料(PFRC)的水热响应特性。采用实验方法,利用monasento Tensometer试验机对PFRC(竹、烟叶和椰子纤维复合材料)的力学性能进行了测试。所有样品都用12.5g氢氧化钠进行化学修饰。采用数值和microsoft excel图形模拟了PFRCs的压缩响应。通过分析可知,烟叶、竹和椰子复合材料的抗压强度分别为40、45和38MPa。
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