现代纺织技术 ›› 2023, Vol. 31 ›› Issue (6): 199-206.

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阴离子型水性聚氨酯超纤革染色性能及模拟

  

  1. 1.天津工业大学纺织科学与工程学院,天津  300387;2.明新孟诺卡新材料研究院有限公司,江苏徐州  221400
  • 出版日期:2023-11-10 网络出版日期:2023-11-17
  • 作者简介:韩雨兰 (1998—),女,江苏盐城人,主要从事水性聚氨酯超纤革染色方面的研究。
  • 基金资助:
    技术开发类横向合作项目(21021010375)

Dyeing properties and theoretical study of anionic waterborne polyurethane microfiber leather

  1.  1. School of Textile Science and Engineering, Tiangong University, Tianjin 300387, China;2. Mingxin Menorca New Materials Research Institute Co., Ltd., Xuzhou 221400, China
  • Published:2023-11-10 Online:2023-11-17

摘要: 为探究阴离子型水性聚氨酯超纤革的染色性能,分别以弱酸性染料及中性染料对其进行染色;绘制恒温上染速率曲线及吸附等温线,分析这两种染料对水性聚氨酯超纤革的染色热力学和动力学特征;并对亲和力、染色热和染色熵等参数进行了计算和分析。结果表明:随着染色温度的升高,两种染料对水性聚氨酯超纤革的上染率逐渐增加,染料对水性聚氨酯超纤革的上染行为符合伪二级动力学模型。超纤革中聚酰胺超细纤维和水性聚氨酯间存在许多微小孔隙,染料在超纤革表面的吸附和微孔中的扩散吸附同时进行,两种染料对水性聚氨酯超纤革的吸附符合Freundlich吸附模型。水性聚氨酯超纤革染色性能的研究为水性超纤革的染色应用提供了理论支持,进一步扩大了水性超纤革的应用领域。

关键词: 水性聚氨酯, 超纤革, 上染速率, 吸附等温线, 动力学模型

Abstract: With the shortage of natural leather resources and the enhancement of people's awareness of environmental protection, the development of artificial leather products that can replace natural leather has become a trend of the industry. In recent years, synthetic leather products have been widely used in household, automobile and other industries. As the artificial leather products are most like natural leather at present, microfiber synthetic leather is often dyed to further expand its application range. In the dyeing process of microfiber synthetic leather, the dyeing properties of microfiber and polyurethane were not consistent, and the problems of levelness and poor color fastness often arise in the dyeing process. For the solvent based polyurethane microfiber leather, the current dyeing methods and technologies can meet the market demand. For the waterborne polyurethane microfiber leather, influenced by hydrophilic monomers, the internal structure of the polyurethane is changed, and the adsorption and diffusion behavior of dyes on waterborne polyurethane microfiber leather are also changed correspondingly. At present, the dyeing mechanism and dyeing properties of waterborne polyurethane microfiber leather are rarely studied. In order to improve the dyeing technology of waterborne polyurethane microfiber leather, it is necessary to study the dyeing behavior theoretically.
In this paper, the adsorption kinetics and dyeing thermodynamics of waterborne polyurethane microfiber leather dyed by weak acid dye blue MD-R and neutral dye isolan grey respectively were studied. The uptake of both kinds of dyes on waterborne polyurethane microfiber leather were improved with the increase of dyeing temperature. The blue MD-R was easily to desorpt from waterborne polyurethane microfiber leather, and the equilibrium dye rate decreased. While the neutral dye was easily to congregate, high dyeing temperature was helpful for dispersion and diffusion, so at 90 ℃ the equilibrium dye rate was increased significantly. During the dyeing process, the adsorption of the two dyes conformed to the quasi-second-order kinetic model. There were many micro interstice between the waterborne polyurethane and polyamide microfibers in the leather. During the dyeing process, the dyes were adsorbed on the surface of the microfiber leather and gradually penetrated into the interstice. The isothermal adsorption of the two dyes on the waterborne polyurethane microfiber leather was consistent with Freunlich adsorption model. The thermodynamic calculation results showed that the dyeing affinity of the two dyes were increased with the increasement of temperature. The dyeing of waterborne polyurethane microfiber leather with the weak acid dye was an exothermic process, while with the neutral dye was an endothermic process.

Key words: waterborne polyurethane, microfiber leather, dyeing rate, adsorption isotherm, dynamic model

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