化学改性竹纤维在复合材料中作为可持续增强材料的拉伸性能和形态学研究

N. Jiyas , Indu Sasidharan , K. Bindu Kumar
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引用次数: 0

摘要

本研究评估了伪木纤维和竹纤维的拉伸性能,并参考了更常用的竹纤维,以确定它们作为结构复合材料增强材料的可行性。在三种不同的湿度条件下对单个纤维进行拉伸试验:环境条件、干燥(完全干燥)条件以及未处理和化学处理纤维的饱和条件。研究了不同径长竹纤维的轴向拉伸模量和极限强度。值得注意的是,使用扫描电子显微镜(SEM)进行断裂形态分析,可以在天然纤维特性与其力学性能之间建立全面的相关性。还对这些纤维进行了吸水率研究。此外,进行热重分析以评估纤维的热稳定性。结果表明,在复合材料领域中,伪木藤属植物具有开发高性能、可持续材料的良好潜力。本研究有助于扩大对竹纤维及其作为结构复合材料增强材料的适用性的认识,从而促进复合材料工程领域的进步。
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Tensile properties and morphological insights into chemically modified fibres of Pseudoxytenanthera bamboo species as sustainable reinforcements in composites

This study evaluated the tensile properties of fibres from Pseudoxytenanthera ritcheyi and P. stocksii, with reference to the more commonly used Bambusa balcooa, in order to determine their viability as reinforcements in structural composite materials. Tensile tests were conducted on individual fibres under three distinct moisture conditions: ambient conditions, desiccated (fully dry) conditions, and saturated conditions for both untreated and chemically treated fibres. The investigation focused on comparing the axial tensile modulus and ultimate strength of bamboo fibres with varying gauge lengths. Notably, fracture morphology analysis using scanning electron microscopy (SEM) allowed a comprehensive correlation between natural fibre characteristics and their mechanical properties. A water absorption study was also conducted on these fibres. Additionally, thermogravimetric analysis was performed to assess the thermal stability of the fibres. The results indicate that Pseudoxytenanthera species exhibit promising potential for the development of high-performance, sustainable materials within the realm of composite materials. This research contributes to expanding the understanding of bamboo fibres and their suitability as reinforcements in structural composites, thus promoting advances in the field of composite material engineering.

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