Formulation of a Composite Material for Thermal Comfort from Bamboo Fibers and HDPE Reinforced with Bauxite Red Mud and MAPE: Physico-Mechanical and Thermal Properties

Alain Nkasse ABA, Djomou Djonga Paul Nestor, Zomegni Gaston, Serewane Deramne Rosellyne, Bazie Benjamin
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Abstract

The modern, dynamic world can’t imagine its development without carrying the concept of advancement in composite materials. Various researches are going on in this field to achieve the desired standard. Natural fiber reinforced polymer composite (NFPC) has a huge affinity to interchange the composite made up of synthetic fiber. This is primarily because of the advantages like light-weight, non-toxic, nonabrasive, easy availability, low cost and biodegradable properties. The specific mechanical properties like specific tensile modulus and other specific properties of natural fiber gives a satisfying result for composites as compared to synthetic fiber based composites. The general objective of this work was to develop a composite from bamboo fibers and HDPE reinforced with red bauxite mud residues to ensure good thermal stability and improve the physico-mechanical properties in traction and flexion. The morphology of the composites showed that there was a homogenous dispersion of BF at lower weight fraction, although fibre agglomeration was noticed at higher weight fraction. The results of this study revealed that treated bamboo fibres are suitable for reinforcing HDPE. It appears from these studies that the formulations produced are in accordance with the ASTM standard and can validly be used for the thermal comfort of buildings to improve the comfort of the population in sustainable habitats.
用矾土红泥和 MAPE 增强竹纤维和高密度聚乙烯配制热舒适复合材料:物理机械性能和热性能
现代世界充满活力,其发展离不开复合材料的进步。为了达到理想的标准,这一领域正在进行各种研究。天然纤维增强聚合物复合材料(NFPC)与合成纤维复合材料相比具有巨大的亲和力。这主要是因为天然纤维具有重量轻、无毒、无磨损、易于获得、成本低和可生物降解等优点。与基于合成纤维的复合材料相比,天然纤维的特定机械性能(如特定拉伸模量和其他特定性能)能为复合材料带来令人满意的结果。这项工作的总体目标是开发一种由竹纤维和高密度聚乙烯(HDPE)以及红矾泥残渣增强的复合材料,以确保良好的热稳定性,并改善牵引和弯曲时的物理机械性能。复合材料的形态显示,在较低的重量分数下,BF 呈均匀分散状态,但在较高的重量分数下,BF 出现聚结。研究结果表明,经过处理的竹浆适用于增强高密度聚乙烯。从这些研究中可以看出,所生产的配方符合 ASTM 标准,可以有效地用于建筑物的热舒适性,以改善可持续居住环境中人们的舒适度。
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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