Synthesis of Hybrid Composites from Bio-Based Fillers: Chicken Feather, Groundnut Shell, Sawdust

Malaysian Journal on Composites Science and Manufacturing Pub Date : 2024-03-27 DOI:10.37934/mjcsm.13.1.126135

Farhana Afroz, Shamsuddin Ahmed, Md. Abdul Gafur

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Abstract

Experimental research has investigated the mechanical characteristics and water absorption performance of polyethylene-based composites reinforced with sawdust, chicken feathers and groundnut shells. Composite samples have been produced with preset volumetric ratios (20%, 30%, 40%, and 50%) at 160°C and 25 kN pressure. A compression molding machine was used to produce specimens of composite materials. The findings indicate that the composites exhibit promising mechanical properties, making them potentially suitable for various applications. However, the waste polyethylene sheet was tested for comparison. It displayed a tensile strength of 7.56 MPa, impact strength with an average energy absorption of 0.093 J, and hardness strength with an average energy value of 92.72 J. The water absorbency data showed minimal water absorption for composite samples, indicating their resistance to water penetration. Similarly, the thickness swelling data revealed no significant change in thickness after immersion, demonstrating dimensional stability in the presence of moisture. This article presents the details of these experiments conducted systematically.

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用生物基填料合成混合复合材料：鸡毛、花生壳、锯末

实验研究调查了用锯末、鸡毛和花生壳增强的聚乙烯基复合材料的机械特性和吸水性能。在 160°C 和 25 kN 压力下，按照预设的体积比（20%、30%、40% 和 50%）制作了复合材料样品。使用压缩成型机制作复合材料试样。研究结果表明，这些复合材料具有良好的机械性能，可用于各种用途。不过，为了进行比较，还对废聚乙烯板材进行了测试。吸水性数据显示，复合材料样品的吸水性极小，表明其具有抗水渗透性。同样，厚度膨胀数据显示，浸水后厚度没有明显变化，这表明在潮湿环境下的尺寸稳定性。本文详细介绍了这些系统性实验。

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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Malaysian Journal on Composites Science and Manufacturing

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