DEVELOPMENT AND CHARACTERIZATION OF HEMP-CONTAINING HYBRID YARNS FOR CLOTHING

IF 1.3 4区农林科学 Q2 MATERIALS SCIENCE, PAPER & WOOD

Cellulose Chemistry and Technology Pub Date : 2023-02-28 DOI:10.35812/cellulosechemtechnol.2023.57.19

Gamze Okyay, O. Demiryurek, M. Avcı, H. Bilgiç

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Abstract

"Known for its sustainable properties, the usability of hemp instead of conventional cotton hybrid yarns for clothing was investigated by spinning hybrid ring yarns using conventional cotton, viscose-hemp, and organic cotton-viscose-hemp blends for the sheath and elastane and polyester (Lycra and T400) for the core in the yarn structure. Unevenness, yarn imperfections, hairiness, tenacity, and breaking elongation properties of the spun hybrid yarns were examined comparatively by statistical analysis methods. The findings revealed that sheath fiber type, number of components in the yarn structure, and blend ratio were influential factors on yarn quality. Using hemp fiber in the yarn structure slightly decreased the yarn properties, except for tenacity, in general. This situation was more visible in hybrid yarns, which have three different fibers in the sheath. Blending viscose and hemp fibers in the yarn sheath structure provided a synergetic effect, improving the weak properties of both fibers. These yarns had nearly the same tenacity values (from 12.98 to 15.47) as conventional cotton yarns (from 15.24 to 16.8), which could be explained by the fact that hemp fiber has a higher tenacity value (45 cN/tex) than other fibers. Moreover, these yarns had the highest elongation values (from 15.88 to 10.79) due to the good elongation properties of the viscose fibers (20%), compared to other sheath fibers. As a result, when the produced yarns were evaluated in terms of sustainability and performance, viscose-hemp-blended yarns had the optimum yarn properties."

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服装用含大麻混纺纱线的研制与性能研究

“以其可持续性能而闻名，我们研究了大麻代替传统棉混合纱线用于服装的可用性，使用传统棉花、粘胶-大麻和有机棉-粘胶-大麻混纺的混合环纱作为护套，用弹性纤维和聚酯(莱卡和T400)作为纱线结构的芯纱。采用统计分析方法，对纺成的混纺纱线的不匀度、纱线疵点、毛羽、强力、断裂伸长等性能进行了比较研究。结果表明，护套纤维类型、纱线结构组分数和混纺比是影响成纱质量的主要因素。在纱线结构中加入大麻纤维，除韧性外，一般会使纱线的性能略有下降。这种情况在混合纱线中更为明显，这种纱线的鞘中有三种不同的纤维。粘胶纤维与大麻纤维在纱线护套结构中混纺，起到协同作用，改善了两种纤维的弱性能。这些纱线的强力值(从12.98到15.47)与常规棉纱(从15.24到16.8)几乎相同，这可以解释为大麻纤维的强力值(45 cN/tex)高于其他纤维。此外，由于粘胶纤维的伸长率较好(20%)，与其他护套纤维相比，这些纱线的伸长率最高(从15.88到10.79)。因此，当对生产的纱线进行可持续性和性能评估时，粘胶-大麻混纺纱线具有最佳的纱线性能。”

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来源期刊

Cellulose Chemistry and Technology 工程技术-材料科学：纸与木材

CiteScore

2.30

自引率

23.10%

发文量

审稿时长

7.3 months

期刊介绍： Cellulose Chemistry and Technology covers the study and exploitation of the industrial applications of carbohydrate polymers in areas such as food, textiles, paper, wood, adhesives, pharmaceuticals, oil field applications and industrial chemistry. Topics include: • studies of structure and properties • biological and industrial development • analytical methods • chemical and microbiological modifications • interactions with other materials