农业基材料(稻壳粉和碳纳米管)在新型高分子生物复合材料开发中的增强作用

S. Falalu, A. Adam, M. Zaharaddeen, K. Ahmad, A. A. Kaugama, I. A. Bilkisu
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摘要

为了解决成本问题,由于大多数农业废弃物的成本相对较低,这些农业基材料已经成功地在改善聚合物材料的性能方面找到了重要的应用。在本研究中,以稻壳和碳纳米管为复合材料的PP在建筑和结构设计中具有有用的应用。碱处理通过去除非晶态部分显著提高了纤维的力学性能,提高了天然纤维增强聚合物复合材料的结晶度和强度,拉伸试验结果表明,稻壳在5%填充时的极限拉伸强度为5%,结果表明,随着填料浓度的增加,5%填充复合材料的拉伸和弯曲强度下降归因于团聚。因此,填料在基体大分子链中的分散性越好,其力学性能得到的提高也就越好。
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Agro Based Material (Rice Husk Powder and Carbon Nanotubes) as Reinforcement in the Development of a New Polymer Bio-composite
Attempts to remedy the problem of cost since most agro wastes are relatively available at low cost, these agro based materials have successfully found significant application in improving the performance of polymeric materials, In this research, a PP with rice husk and carbon nanotubes as composite material with useful application in construction and structural design were been developed. Alkali treatment is significant in enhancing the mechanical properties of the fiber through the removal amorphous portion, increases the crystallinity and strength of the natural fiber reinforced polymer composites, tensile test results shows that the ultimate tensile strength at 5% for rice husk, as shown in the results, a decline in tensile and flexural strength from 5% filled composite were attributed to agglomeration as filler concentration increased. Hence the better the dispersion of the filler in the macromolecular chains of the matrix, the better enhanced the mechanical property will be.
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