ST210固色剂在羊毛活性染色中的应用研究OA
A study on the application of ST210 fixing agent in wool reactive dyeing
文章采用毛用活性染料对经等离子处理的羊毛纱线进行染色,随后通过横机编织制成羊毛衫,再采用ST210固色剂对织物开展后整理工序,探讨了固色剂用量、pH值、浸泡温度及浸泡时间对羊毛织物色牢度的影响.研究结果表明,当ST210 质量分数为3%、pH值处于 5.0~6.0、浸泡温度为50℃、浸泡时间为25 min时,织物的色牢度等级相较于未固色样品提高了0.5~1.5 级,达到GB18401 标准一等品要求.进一步通过扫描电子显微镜(SEM)及X射线光电子能谱(XPS)分析可知,刻蚀处理有效去除了羊毛纤维表面的鳞片结构,暴露出极性基团促进了染料的吸附;染色处理使纤维表面粗糙化,且与含氮、含硫基团的染料分子发生化学键合;而ST210 固色处理在纤维表面形成了一层致密的膜状保护层,通过Si—O稳定交联网络有效提升了染料与纤维的结合牢度及织物的耐洗性能,同时保持了织物的良好手感,该研究为羊毛织物染色与固色工艺的优化提供了理论依据,并具有良好的工业应用前景.
Wool is a natural protein-based fiber widely used in the textile industry due to its softness,warmth,and excellent mechanical resilience.However,wool presents significant challenges in dyeing and finishing processes because of its scaly surface structure and inherent hydrophobicity.These structural features reduce dye affinity,lead to uneven coloration,and result in poor color fastness,especially when reactive dyes are used.Traditional chemical pretreatments often involve harsh conditions and high environmental burdens,which are incompatible with sustainable manufacturing goals.Therefore,developing an eco-friendly and efficient dyeing and finishing process for wool is a crucial goal in textile engineering. This study aims to establish a high-performance dyeing and fixation system for wool fabrics by integrating low-temperature plasma surface modification with ST210 post-dyeing fixation.Plasma treatment is a physical-chemical process that modifies the surface of fibers without damaging their bulk properties.It can effectively remove surface lipid layers and scaly structures and introduce polar functional groups,thereby improving hydrophilicity and increasing dye binding sites.Meanwhile,ST210 is a silicone-based fixing agent known for its ability to form a dense,cross-linked film on the fiber surface,thereby enhancing dye fixation and improving color fastness. The research process was divided into three main stages.First,wool yarns were treated using low-temperature plasma under optimized operating conditions.This treatment aimed to etch the fiber surface and increase the presence of active polar sites.Second,the plasma-treated wool yarns were dyed using wool-specific reactive dyes under controlled conditions.Finally,a post-dyeing fixation treatment was applied using different concentrations of ST210 to improve the stability of dye-fiber bonding. A single-factor experimental design was employed to systematically investigate the influence of four key parameters:the dosage of ST210(expressed as a percentage of fiber weight,owf),the pH value of the fixing bath,the soaking temperature,and the soaking time.The primary performance indicators evaluated were washing fastness and rubbing fastness,tested according to GB∕T 3921 and GB∕T 3920 standards,respectively.In addition to macroscopic performance evaluation,microscopic and chemical analyses were conducted using scanning electron microscopy(SEM)and X-ray photoelectron spectroscopy(XPS)to investigate the morphological and elemental changes on the fiber surface. The experimental results showed that when the ST210 dosage was 3%owf,the pH of the bath was maintained between 5.0 and 6.0,the soaking temperature was 50℃,and the treatment duration was 25 minutes,the dyed wool fabrics achieved optimal performance.Compared to untreated samples,the treated samples exhibited an improvement of 0.5 to 1.5 grades in both washing and rubbing fastness,meeting the first-class product standard under GB18401.SEM analysis revealed that plasma treatment effectively removed the outer cuticle layer and increased the surface roughness,which facilitated deeper dye penetration and better adsorption.XPS analysis confirmed a higher concentration of polar groups such as—SO3-,—COOH,and—OH,which contributed to the improved dye-fiber interaction.The subsequent application of ST210 led to the formation of a compact film on the fiber surface,primarily composed of Si—O—Si cross-linked networks,which significantly enhanced the wash durability of the dyed fabrics while maintaining a soft hand feel. The findings of this study demonstrate that the combination of plasma treatment and ST210 fixation results in a synergistic enhancement of dyeing efficiency and fastness in wool fabrics.The dual mechanism—surface activation followed by chemical fixation—addresses both the limitations of dye absorption and dye retention,which are common in wool dyeing using reactive dyes.Moreover,the method is environmentally friendly,as plasma treatment does not require water or additional chemicals,and ST210 is a low-formaldehyde formulation with minimal ecological impact. The innovation of this study lies in integrating low-temperature plasma treatment with silicone color-fixing agents for the first time in wool reactive dyeing and finishing,establishing a complete pathway from structural modification to performance enhancement.Simultaneously,the study unveils the influence mechanism of surface structural and chemical changes in fibers on dyeing performance during the dyeing and finishing process based on microscopic characterization,which holds significant theoretical importance and practical value.
沈晓强;张辉;朱嵛婷;姚春婵;张劲峰;魏乾阳;梁娟;樊武厚;江峰;冯方
广东新羊纺织科技有限公司,广东 东莞 523775西安工程大学 纺织科学与工程学院,西安 710048广东新羊纺织科技有限公司,广东 东莞 523775绍兴市柯桥区西纺纺织产业创新研究院,浙江 绍兴 312030||绍兴孚亨纺织科技有限公司,浙江 绍兴 312030绍兴市柯桥区西纺纺织产业创新研究院,浙江 绍兴 312030||绍兴孚亨纺织科技有限公司,浙江 绍兴 312030绍兴市柯桥区西纺纺织产业创新研究院,浙江 绍兴 312030四川省纺织科学研究院有限公司,成都 610083四川省纺织科学研究院有限公司,成都 610083四川省纺织科学研究院有限公司,成都 610083绍兴理工学院 人工智能学院,浙江 绍兴 312000
轻工纺织
羊毛活性染料染色固色色牢度绿色整理
woolreactive dyedyeingcolor fixationcolor fastnessgreen finishing
《丝绸》 2026 (2)
76-85,10
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