Utilizing almond shell filler to improve strength and sustainability of jute fiber composites

IF 4.8 2区 材料科学 Q2 MATERIALS SCIENCE, COMPOSITES
Ahmet Çetin
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Abstract

In recent years, natural fibers have begun to replace synthetic fibers in automotive, building, and marine applications because of their sustainability, renewability, low cost, and availability of raw materials. However, because of their low strength, biocomposites are strengthened by hybridization with stronger synthetic fibers or adding fillers. This study reinforced high‐cellulose jute fiber composites with cellulose‐based almond (Prunus amygdalus) shell filler (ASF). Natural waste almond shells were ground to microparticle size. Hybrid composites were prepared by adding microparticulate ASF to the jute fiber composites at 0%, 1.5%, 3%, 4.5%, and 6% by weight. A comprehensive experimental study included tensile, flexural, Charpy impact (flat and edgewise), and shear tests. The addition of ASF significantly improved the mechanical properties of the jute fiber composites, and the best values were obtained with 3 wt.% ASF addition. Tensile, flexural, impact, and shear properties increased by 48.2%, 63.5%, 24.4%, and 52.2%, respectively. Scanning Electron microscopy (SEM) micrographs used in morphological structural analysis prove that the high mechanical values are achieved by ASF strengthening the interlaminar adhesion. This study contributed to developing a hybrid natural composite material reinforced with natural fillers that is stronger, environmentally friendly, and sustainable.Highlights The organic structure of Almond Shell Filler (ASF) ensured the sustainability of natural composites. Cellulosic ASF significantly contributed to the structural stiffness and strength of jute fiber composites. ASF reduced voids, improved fiber‐matrix bonding, and prevented debonding and delamination. ASF optimized the mechanical performance of jute fiber composites at 3%.

Abstract Image

利用杏仁壳填料提高黄麻纤维复合材料的强度和可持续性
近年来,天然纤维因其可持续性、可再生性、低成本和原材料的可获得性,已开始在汽车、建筑和船舶应用中取代合成纤维。然而,由于生物复合材料的强度较低,因此需要通过与强度更高的合成纤维混合或添加填料来增强其强度。本研究用纤维素基杏仁(Prunus amygdalus)壳填料(ASF)增强高纤维素黄麻纤维复合材料。天然废弃杏仁壳被研磨成微粒大小。通过在黄麻纤维复合材料中添加微粒 ASF,制备出重量百分比分别为 0%、1.5%、3%、4.5% 和 6% 的混合复合材料。综合实验研究包括拉伸、弯曲、夏比冲击(平面和边缘)和剪切测试。添加 ASF 能明显改善黄麻纤维复合材料的机械性能,其中添加 3 wt.% ASF 的黄麻纤维复合材料的机械性能最佳。拉伸、弯曲、冲击和剪切性能分别提高了 48.2%、63.5%、24.4% 和 52.2%。形态结构分析中使用的扫描电子显微镜(SEM)显微照片证明,高机械性能是通过 ASF 增强层间粘合力实现的。这项研究有助于开发出一种用天然填料增强的混合天然复合材料,这种材料更坚固、更环保,而且具有可持续性。纤维素 ASF 大大提高了黄麻纤维复合材料的结构刚度和强度。ASF 减少了空隙,改善了纤维与基质的粘合,防止了脱粘和分层。ASF 优化了黄麻纤维复合材料 3% 的机械性能。
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来源期刊
Polymer Composites
Polymer Composites 工程技术-材料科学:复合
CiteScore
7.50
自引率
32.70%
发文量
673
审稿时长
3.1 months
期刊介绍: Polymer Composites is the engineering and scientific journal serving the fields of reinforced plastics and polymer composites including research, production, processing, and applications. PC brings you the details of developments in this rapidly expanding area of technology long before they are commercial realities.
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