Improved coloration of hemp fabrics via low-pressure argon plasma assisted surface modification

Kunal S. Bapat , T.P. Kee , S.J. Russell , L. Lin
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Abstract

Interest in hemp as a viable cellulosic fibre for clothing has increased, driven partly by its economic benefits and the importance of natural renewable materials in emerging circular economies. However, the coloration and chemical finishing of lignocellulosic fibres such as hemp typically require large quantities of water and chemicals. Argon plasma pretreatment provides a way of modulating the physical properties of hemp fibres to improve the coloration process without compromising other bulk properties such as tensile strength. Such plasma treatments may contribute to alleviating the negative environmental impacts associated with liquid pretreatments, heating, or the use of auxiliary chemicals. Dyeing of hemp fibres is particularly challenging due to its crystalline chemical structure. In this study, low-pressure argon plasma-assisted surface modification of woven hemp fabrics up to 600 s at 40 and 80 Hz was explored for enhanced dyeability, resulting in enhanced dye-fibre bonding. Fourier-transform infrared spectroscopy and Raman spectroscopy of argon plasma pretreated hemp fabrics produced no noticeable changes in the functional groups of the fibres, but a physiochemical modification was observed in terms of the density of polar groups. Scanning electron microscopy (SEM) images revealed marked morphological changes including nano-etching of the fibre surface at certain argon plasma process conditions. The pretreatment process increased fibre hydrophilicity, and enhanced reactivity of the surficial –OH groups towards fibre-reactive and vat dyes, resulting in higher colour strength in dyed woven hemp fabrics. Overall, we envisage such plasma pretreatments may impact positively on the material and energy efficiency of the hemp fabric dyeing process.

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通过低压氩等离子体辅助表面改性提高麻织物的着色性能
大麻作为一种可用于服装的纤维素纤维,其经济效益和天然可再生材料在新兴循环经济中的重要性,使人们对大麻的兴趣与日俱增。然而,对大麻等木质纤维素纤维进行着色和化学整理通常需要大量的水和化学品。氩等离子体预处理提供了一种调节麻纤维物理特性的方法,可在不影响拉伸强度等其他体积特性的情况下改善着色工艺。这种等离子体处理可有助于减轻与液体预处理、加热或使用辅助化学品相关的负面环境影响。由于麻纤维的结晶化学结构,对其进行染色尤其具有挑战性。在本研究中,我们探索了在 40 和 80 Hz 频率下对编织麻织物进行长达 600 秒的低压氩等离子体辅助表面改性,以提高其染色性,从而增强染料与纤维之间的结合力。对经过氩等离子体预处理的麻织物进行傅立叶变换红外光谱和拉曼光谱分析,发现纤维的官能团没有发生明显变化,但在极性基团密度方面观察到了生化改性。扫描电子显微镜(SEM)图像显示了明显的形态变化,包括在特定氩等离子工艺条件下纤维表面的纳米蚀刻。预处理工艺增加了纤维的亲水性,提高了表面 -OH 基团对纤维反应性染料和还原染料的反应性,从而提高了染色麻织物的着色力。总之,我们认为这种等离子体预处理可能会对麻织物染色工艺的材料和能源效率产生积极影响。
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