Physico-mechanical characteristics of bast fibres of Sesamum indicum and Sesamum radiatum for bioprospecting

IF 20.2 Q1 MATERIALS SCIENCE, PAPER & WOOD Journal of Bioresources and Bioproducts Pub Date : 2022-11-01 DOI:10.1016/j.jobab.2022.07.003
Ancy S Watson, Suhara Beevy S
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引用次数: 6

Abstract

Natural fibres are renewable, inexpensive and biodegradable sources of sustainable materials from plants or animals. Bast fibres, as the notable natural fibres, are gathered from the outer cell layers of the stem of plant. Mature and young bast fibres from two species of Sesamum, namely Sesamum indicum L. and S. radiatum Schumach. & Thonn. were extracted through traditional water retting technique and analyzed for their physical, mechanical and chemical attributes. Anatomical studies revealed polygon shaped phloem (bast fibre) cells with small lumen were similar to jute, in terms of architecture, and bagasse, in terms of lumen size. Upon extraction and subsequent drying, the young stems of S. radiatum were found to yield more bast fibres by mass compared with the rest of the Sesamum samples, that was, 0.59 g (dry weight) of bast fibres from 100 g (fresh weight) of stem. According to stereo microscopic images, the mature S. radiatum fibres had rougher edges than the rest. Both S. indicum and S. radiatum fibre surfaces also seemed to have pores, according to scanning electron microscopy (SEM) images. The porosity appeared to get more pronounced as the plants got older. The Sesamum bast fibres were also found to be extremely hydrophilic with a high-water retention value. The fibres obtained from S. radiatum were determined to be suitable for the textile industry due to their light colour, ideal diameter and length, and water-holding capacity that matched the requirements of fabric manufacturing. Even in the absence of a mordant, the mature fibres showed a significant degree and evenness of Alizarin dye attachment, which might be correlated to the increase in fibre surface roughness with fibre maturity. These fibres were also discovered to be comparable with jute in terms of phloem cell shape (polygonal), diameter (13–15 m), tenacity (12.86–32.54 gf/(g·km–1)), and linear density (2.5–3.3 g/km). It suggested that they might find industrial applications if further research were to be done.

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用于生物勘探的芝麻和辐射芝麻韧皮纤维的物理力学特性
天然纤维是从植物或动物中提取的可再生、廉价和可生物降解的可持续材料。韧皮纤维是植物茎的外层细胞聚集而成的一种重要的天然纤维。芝麻(Sesamum indicum L.)和芝麻(S. radiatum Schumach)两种芝麻的成熟和幼嫩韧皮纤维。,Thonn。采用传统的水浸法提取,并对其物理、机械和化学性质进行了分析。解剖研究显示,具有小管腔的多角形韧皮部(韧皮纤维)细胞在结构上与黄麻相似,在管腔大小上与甘蔗粕相似。经过提取和随后的干燥,发现与其他芝麻样品相比,辐射子的幼茎产生更多的韧皮纤维,即从100克(新鲜重量)的茎中产生0.59克(干重)的韧皮纤维。根据立体显微镜图像,成熟的S. radiatum纤维比其他纤维边缘更粗糙。扫描电镜(SEM)显示,籼稻和辐射稻的纤维表面似乎也有气孔。随着植物年龄的增长,孔隙度似乎变得更加明显。芝麻的韧皮纤维也被发现具有极高的亲水性和高保水值。由于其浅色,理想的直径和长度,以及符合织物制造要求的保水能力,从辐射草中获得的纤维被确定为适合纺织工业。即使在没有媒染剂的情况下,成熟纤维也显示出显著的茜素染料附着程度和均匀性,这可能与纤维成熟后纤维表面粗糙度的增加有关。这些纤维还被发现在韧皮部细胞形状(多边形)、直径(13-15米)、韧性(12.86-32.54 gf/(g·km - 1))和线密度(2.5-3.3 g/km)方面与黄麻相当。它表明,如果进行进一步的研究,它们可能会找到工业应用。
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来源期刊
Journal of Bioresources and Bioproducts
Journal of Bioresources and Bioproducts Agricultural and Biological Sciences-Forestry
CiteScore
39.30
自引率
0.00%
发文量
38
审稿时长
12 weeks
期刊最新文献
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