Biochar from cashew nut shells: A sustainable reinforcement for enhanced mechanical performance in hemp fibre composites

IF 5.3 Q2 ENGINEERING, ENVIRONMENTAL
Sundarakannan Rajendran , Geetha Palani , Arumugaprabu Veerasimman , Uthayakumar Marimuthu , Karthick Kannan , Vigneshwaran Shanmugam
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引用次数: 0

Abstract

The pursuit of sustainable and eco-friendly materials has fuelled research into enhancing composite materials using bio fillers derived from renewable sources. This study investigates the incorporation of bio filler - biochar produced from cashew nut shell, in hemp fibre composite to achieve a balance between performance and environmental sustainability. Hemp fibre composites were fabricated with four different weight percentages of biochar such as 5, 10, 15, and 20 wt%. Hemp fibre composites with biochar showed enhanced mechanical strength and water resistance when compared to composite without biochar. The composites containing 10 wt% biochar added showed the maximum tensile, impact, and hardness, ca. 94%, ca. 38%, and ca. 7% increase compared to composite without biochar, respectively. The highest flexural strength (ca. 71 MPa) was observed at a biochar addition of 15 wt%. The integration of biochar improved the filler-matrix interaction by enhancing adhesion, creating effective stress transfer within the vinyl ester matrix, thereby reinforcing the composite's structural integrity. In the water absorption test, the biochar acted as barrier to the water molecules and reduced the water absorption by ca. 32–63%. These findings highlight the potential of biochar-based fillers in advancing the field of composite materials, providing a more nuanced understanding of their applications in addressing both environmental concerns and bio waste accumulation.

腰果壳生物炭:提高麻纤维复合材料机械性能的可持续增强材料
对可持续和生态友好材料的追求推动了利用可再生来源的生物填料增强复合材料的研究。本研究探讨了在麻纤维复合材料中加入生物填料--腰果壳制成的生物炭,以实现性能与环境可持续性之间的平衡。麻纤维复合材料采用了四种不同重量百分比的生物炭,如 5%、10%、15% 和 20%。与不含生物炭的复合材料相比,含生物炭的大麻纤维复合材料显示出更高的机械强度和耐水性。与未添加生物炭的复合材料相比,添加了 10 wt% 生物炭的复合材料显示出最大的拉伸强度、冲击强度和硬度,分别增加了约 94%、约 38% 和约 7%。生物炭添加量为 15 wt%时,弯曲强度最高(约 71 兆帕)。生物炭的加入通过增强粘附力改善了填料与基体之间的相互作用,在乙烯基酯基体内产生了有效的应力传递,从而加强了复合材料的结构完整性。在吸水测试中,生物炭起到了阻挡水分子的作用,吸水率降低了约 32-63%。这些发现凸显了生物炭基填料在推动复合材料领域发展方面的潜力,使人们对其在解决环境问题和生物废物积累方面的应用有了更细致的了解。
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来源期刊
Cleaner Engineering and Technology
Cleaner Engineering and Technology Engineering-Engineering (miscellaneous)
CiteScore
9.80
自引率
0.00%
发文量
218
审稿时长
21 weeks
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