Optimization and modelling of the fracture inhibition potential of heat treated doum palm nut fibres in phenolic resin matrix polymer composite: a Taguchi approach

IF 3.1 Q2 MATERIALS SCIENCE, COMPOSITES Functional Composites and Structures Pub Date : 2022-02-11 DOI:10.1088/2631-6331/ac5466
A. A. Alabi, B. Samuel, Maiwada Elisha Peter, S. M. Tahir
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引用次数: 7

Abstract

The chemical treatment of natural fibres for its surface modification for the development of polymer composites is popular but it comes with an adverse effect of a chemical change of the fibres. In this study, the surface modification of natural fibres (doum palm nut (DPN) fibres) with low-temperature heat treatment (30 °C–75 °C) has been reported as an alternative method to the treatment of natural fibres for the development of polymer composites. Taguchi method of the design of experiment was employed to determine the effect of temperature and fibre content on the mechanical properties (hardness and fracture toughness) of DPN fibre-reinforced phenolic resin polymer composite. The process showed that the best combination of fibre content and fibre treatment temperature for optimum hardness and fracture toughness and results proved to be at 5% and 75 °C respectively. Statistical analysis established the significance of heat treatment in improving the fracture toughness of DPN fibre reinforced phenolic resin composites. Physical observation with scanning electron microscope and Fourier-transform infrared spectroscopy confirmed the improvement in interfacial bonding between the fibre and the matrix with the increase in fibre treatment temperature without a change in the chemical properties of the treated fibres. The study concludes that the treatment of fibres with temperature is an alternative and effective method to the chemical treatment.
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热处理豆棕榈纤维在酚醛树脂基聚合物复合材料中的断裂抑制潜力的优化和建模:田口方法
为了开发聚合物复合材料,对天然纤维进行表面改性的化学处理很受欢迎,但它也会带来纤维化学变化的不利影响。在本研究中,采用低温热处理(30°C–75°C)对天然纤维(双棕榈(DPN)纤维)进行表面改性已被报道为开发聚合物复合材料的天然纤维处理的替代方法。采用田口实验设计方法,研究了温度和纤维含量对DPN纤维增强酚醛树脂-聚合物复合材料力学性能(硬度和断裂韧性)的影响。该工艺表明,纤维含量和纤维处理温度的最佳组合可获得最佳硬度和断裂韧性,结果分别为5%和75°C。统计分析证实了热处理对提高DPN纤维增强酚醛树脂复合材料断裂韧性的意义。用扫描电子显微镜和傅里叶变换红外光谱进行的物理观察证实,随着纤维处理温度的升高,纤维和基体之间的界面结合有所改善,而处理过的纤维的化学性质没有变化。研究得出结论,用温度处理纤维是化学处理的一种替代和有效的方法。
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来源期刊
Functional Composites and Structures
Functional Composites and Structures Materials Science-Materials Science (miscellaneous)
CiteScore
4.80
自引率
10.70%
发文量
33
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