Extrinsic properties of unsaturated polyester resin-based hybrid composite reinforced with waste-fibers versus waste-fibers and talc: A comparative study

Bangladesh Journal of Scientific and Industrial Research Pub Date : 2024-03-31 DOI:10.3329/bjsir.v59i1.69839

A. Nahar, S. Dhar, Nigar Sultana Pinky, A. Ahmed, Muhammed Yusuf Miah, Md Ashraful Alam, F. N. Robel, Muhammad Shahriar Bashar, Monika Mahmud, Md Abdul Gafur

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Abstract

This study demonstrates a comparative study on the mechanical, thermal, and morphological properties between waste-fibers/unsaturated polyester (WF/PE) and talc/waste-fibers/unsaturated polyester (T/WF/PE) hybrid composite. Here, reinforcing materials came from discarded coir doormats and jute sacks. The waste fibre was treated with NaOH and then embedded into the polyester matrix using a cold compression moulding technique. On the other hand, talc filler and waste-fibres reinforced polyester resin hybrid composite was developed using the same technique, and a comparative study was performed. WF/PE hybrid composite showed tensile and flexural strength of 36.67 MPa and 38.76 MPa respectively. Talc filler-filled T/WF/PE hybrid composite reported 23.95 MPa of tensile strength and 65.2 MPa of flexural strength. Average Leeb’s robust hardness (LRH) was found 495.667 and 524.75 for WF/PE and T/WF/PE respectively. T/WF/PE hybrid composite presented low-temperature thermal degradation compared to WNF/PE hybrid composite. Surface morphology studies showed that coagulation of fibres, voids, and fibre pullout at the inner interface of the composite was a common phenomenon for both composites. WF/PE composite showed higher electrical resistivity to applied voltage compared to T/WF/PE. Water absorption studies showed that talc filler boosted the water adsorption of the T/WF/PE hybrid composite. Bangladesh J. Sci. Ind. Res. 59(1), 17-26, 2024

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用废纤维与废纤维和滑石粉增强的不饱和聚酯树脂基混合复合材料的外部特性：对比研究

本研究对废弃纤维/不饱和聚酯（WF/PE）和滑石粉/废弃纤维/不饱和聚酯（T/WF/PE）混合复合材料的机械、热和形态特性进行了比较研究。这里的增强材料来自废弃的棕垫和黄麻袋。废纤维经 NaOH 处理后，采用冷压成型技术嵌入聚酯基体中。另一方面，使用同样的技术开发了滑石填料和废纤维增强聚酯树脂混合复合材料，并进行了对比研究。WF/PE 混合复合材料的拉伸和弯曲强度分别为 36.67 兆帕和 38.76 兆帕。填充滑石粉的 T/WF/PE 混合复合材料的拉伸强度为 23.95 兆帕，弯曲强度为 65.2 兆帕。WF/PE和T/WF/PE的平均里氏硬度（LRH）分别为495.667和524.75。与 WNF/PE 混合复合材料相比，T/WF/PE 混合复合材料的热降解温度较低。表面形貌研究表明，纤维凝结、空洞和复合材料内部界面的纤维拉出是两种复合材料的共同现象。与 T/WF/PE 相比，WF/PE 复合材料对外加电压的电阻率更高。吸水性研究表明，滑石粉填料提高了 T/WF/PE 混合复合材料的吸水性。59(1), 17-26, 2024

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Bangladesh Journal of Scientific and Industrial Research

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4 weeks