石尘颗粒与甘蔗渣纤维对增强再生高密度聚乙烯生物复合材料力学和物理性能影响的对比研究

I. Oladele, Simbiat Olawunmi Aliu, A. S. Taiwo, N. I. Agbeboh
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引用次数: 4

摘要

本研究的主要目的之一是通过回收废旧塑料并利用其开发创新复合材料,控制环境污染,减轻无知丢弃的废旧塑料对环境的影响。研究了石尘颗粒和甘蔗渣纤维对增强再生高密度聚乙烯生物复合材料力学性能和物理性能的影响。首先将甘蔗渣纤维用0.5 m NaOH溶液在50℃下处理2 h,以改善表面形貌,并改性纤维的力学性能。同样,用标准振动筛对石粉颗粒进行分析,得到粒径为75 μm的颗粒。通过压缩成型技术将两种增强材料用于复合材料的开发,并根据标准对样品进行了机械和物理性能测试。结果表明,石粉颗粒可改善生物复合材料的抗弯性能、硬度、耐磨性和疏水性。峰值抗弯强度和模量分别提高88%和92%。同时还发现,甘蔗渣纤维可以提高生物复合材料的拉伸、冲击和导热性能。抗拉强度和杨氏模量分别提高了43%和34%。因此,这些副产物的共混表明它们是发展生物复合材料的潜在生物材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative investigation of the influence of stone-dust particles and bagasse fiber on the mechanical and physical properties of reinforced recycled high-density polyethylene bio-composites
One of the main purposes of this research is to control environmental pollution and mitigate the impact of ignorantly discarded waste plastics in the environment through recycling of such plastics and using them to develop innovative composite materials. The present work investigates the influence of stone-dust particles and bagasse fiber on the mechanical and physical properties of reinforced recycled high-density polyethylene bio-composites. The bagasse fiber was first treated with 0.5 m NaOH solution at a temperature of 50°C for 2 h in order to improve the surface morphology and also modified the mechanical properties of the fiber. Likewise, the stone-dust particles were analyzed by using a standard sieve shaker to obtain particle sizes of 75 μm. Both reinforcements were used for composite development through the compression molding technique and the samples were subjected to mechanical and physical properties tests in accordance with standards. Analysis of the results revealed that flexural, hardness, wear, and hydrophobicity of the developed bio-composites were improved by stone-dust particles. The flexural strength at peak and modulus were enhanced by 88% and 92%, respectively. Also, it was discovered that, tensile, impact and thermal conductivity properties of the bio-composites were improved by bagasse fiber. The ultimate tensile strength and Young’s modulus were enhanced by 43% and 34%, respectively. Hence, the blend of these by-products showed that they are potential bio-materials for the development of bio-composites.
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