纺织学报 ›› 2022, Vol. 43 ›› Issue (04): 84-89.doi: 10.13475/j.fzxb.20210307907

• 染整与化学品 • 上一篇    下一篇

靛蓝分散体的制备及其还原-氧化过程

何颖婷1,2, 李敏1,2, 付少海1,2,3()   

  1. 1.江苏省纺织品数字喷墨印花工程技术研究中心, 江苏 无锡 214122
    2.生态纺织教育部重点实验室(江南大学), 江苏 无锡 214122
    3.国家先进印染技术创新中心, 山东 泰安 271000
  • 收稿日期:2021-03-22 修回日期:2021-12-03 出版日期:2022-04-15 发布日期:2022-04-20
  • 通讯作者: 付少海
  • 作者简介:何颖婷(1997—),硕士生。主要研究方向为还原染料的超细化及染色性能。
  • 基金资助:
    江苏省自然科学基金项目(BK20191334);国家先进印染技术创新中心科研基金项目(ZJ2021A08)

Preparation and reduction-oxidation process of indigo dispersant

HE Yingting1,2, LI Min1,2, FU Shaohai1,2,3()   

  1. 1. Jiangsu Engineering Research Center for Digital Textile Inkjet Printing, Wuxi, Jiangsu 214122, China
    2. Key Laboratory of Eco-Textiles (Jiangnan University), Ministry of Education, Wuxi, Jiangsu 214122, China
    3. National Engineering Research Center for Dyeing and Finishing of Textiles, Taian, Shandong 271000, China
  • Received:2021-03-22 Revised:2021-12-03 Published:2022-04-15 Online:2022-04-20
  • Contact: FU Shaohai

RichHTML

20

PDF (PC)

72

摘要:

针对靛蓝染色织物得色量低的问题,对靛蓝的分散工艺进行改进。研究了分散剂种类及质量分数对靛蓝分散稳定性及染色性能的影响;分析了染料粒径、还原剂质量浓度、温度、pH值对靛蓝还原效果及速率的影响;探讨了氧化方式对染色织物色牢度的影响。结果表明:采用质量分数为1.5%的分散剂DM-1501制备的靛蓝分散体,其染色棉织物K/S值达到11.92;粒径为280 nm左右的靛蓝分散体在保险粉质量浓度为1 g/L,还原温度为 80 ℃, pH值为11的还原条件下,还原液中隐色体吸光度达到最大,半还原时间减少至0.2 min; 采用空气氧化得到的靛蓝染色棉织物的耐干摩擦色牢度为4级,耐湿摩擦色牢度为3级,明显优于双氧水氧化得到的染色织物。

关键词: 靛蓝分散体, 分散工艺, 还原-氧化过程, 色牢度, 染色性能, 棉织物

Abstract:

In view of the low color yield of indigo dyeings, the preparation process of indigo dispersant was improred. The effects of the type and dosage of dispersant on the dispersion stability and dyeing properties of indigo dispersant were investigated. The effects of dye particle size, reductant dosage, temperature and pH value on the indigo reduction rate were analyzed, and the effect of oxidation methods on color fastness of dyed fabrics was discussed. The experimental results show that the dyeing of indigo dispersion with 1.5% dispersant DM-1501 achieves K/S value of 11.92. Under the condition of 1 g/L sodium hydrosulfite, 80 ℃ of reduction temperature, pH value is 11, the absorbance of leuco indigo in the reduction solution reaches the maximum and the half-reduction time of indigo dispersant with particle size of about 280 nm is reduced to 0.2 min. The cotton fabric oxidized by air reach the dry rubbing color fastness of grade 4, wet rubbing color fastness of grade 3, which are better than the fabric oxidized by H2O2.

Key words: indigo dispersant, dispersing, reduction-oxidation process, color fastness, dyeing property, cotton fabric

中图分类号: 

  • TS193.5

图1

研磨前后靛蓝SEM照片"

表1

分散剂种类对靛蓝分散体分散稳定性及染色性能的影响"

分散剂 粒径/nm 结晶度/% 粒径变化率/% K/S
种类 质量分数/% 储存 热稳定 离心
0 62.97 染料发生团聚沉淀 10.33
NNO 1.5 314.1 73.99 2.42 17.16 -5.53 11.56
DM-1501 1.5 282.1 75.11 8.36 7.90 -6.19 11.92
AD-4600/DM-1501 1.5 (1∶1) 283.2 66.26 48.52 48.41 -7.87 10.82
平平加O/DM-1501 1.5 (1∶1) 237.6 69.91 3.37 65.99 -38.07 11.20

表2

分散剂质量分数对靛蓝分散体分散稳定性及染色性能的影响"

DM-1501质量
分数/%		 粒径/nm Zeta电位/mV 结晶度/% 粒径变化率/% 黏度/(mPa·s) K/S
储存 热稳定 离心
0.5 292.4 -44.9 68.89 10.20 2.99 -22.98 2.16 11.13
1.0 235.2 -43.9 66.48 7.33 8.67 -13.93 2.67 11.30
1.5 205.0 -43.9 69.76 5.30 7.87 -5.71 3.27 11.41
2.0 188.2 -43.6 67.62 5.16 8.52 -1.20 8.01 11.07
3.0 186.4 -44.3 64.39 3.28 4.53 -0.11 14.81 11.14

图2

还原剂质量浓度对靛蓝隐色体吸光度的影响"

图3

还原温度对靛蓝半还原时间的影响"

图4

pH值对靛蓝还原效果的影响"

图5

粒径对靛蓝半还原时间的影响"

表3

氧化方式对靛蓝染色棉织物氧化时间、染色性能及色牢度的影响"

H2O2质量
分数/%		 氧化时
间/min		 a* b* C* K/S 耐摩擦色牢度/级 耐皂洗色牢度/级 皂洗残液
吸光度
湿 棉沾色 变色
空气氧化 22.0 -1.75 -19.95 20.03 11.92 4 3 4~5 4~5 0.464
5 2.0 -0.09 -20.63 20.63 9.93 3~4 2~3 4~5 4~5 0.636
8 1.5 0.07 -20.04 20.05 10.78 3~4 2~3 4~5 4~5 0.643
10 <1.0 0.18 -20.34 20.34 11.08 3~4 2~3 4~5 4~5 0.662
15 <1.0 0.58 -19.93 19.94 11.13 3~4 2~3 4 4 0.689
20 <1.0 0.84 -19.78 19.80 11.43 3 2 4 4 0.690

图6

氧化方式对染色织物表面上染料表观形态的影响"

[1] KÜHNEL G, WOLFF J, RUPPERT G, et al. Textile dyeing:dyeing of cellulose fibers[M]. Berlin: Ullmann's Encyclopedia of Industrial Chemistry, 2016: 1-27.
[2] 吴远明. 液体分散靛蓝的制备及其染色性能研究[D]. 石家庄:河北科技大学, 2013: 19-22.
WU Yuanming. Preparation of liquid dispersed indigo and dyeing performance study[D]. Shijiazhuang: Hebei University of Science and Technology, 2013: 19-22.
[3] HAKEIM O A, NASSAR S H, RAGHAB A A, et al. An approach to the impact of nanoscale vat coloration of cotton on reducing agent account[J]. Carbohydrate Polymers, 2013, 92(2): 1677-1684.
doi: 10.1016/j.carbpol.2012.11.035
[4] 闫丽君. 靛蓝染料染色影响因素分析[D]. 石家庄:河北科技大学, 2010: 57-58.
YAN Lijun. Analysis of indigo dyeing factors[D]. Shijiazhuang: Hebei University of Science and Technology, 2010: 57-58.
[5] 冉旭东, 姚继明. 尿素在溴靛蓝染色中的应用[J]. 印染助剂, 2017, 34(8): 41-43.
RAN Xudong, YAO Jiming. Application of urea in bromine indigo dyeing[J]. Textile Auxiliaries, 2017, 34(8): 41-43.
[6] BURKINSHAW S M, SALIHU G. The role of auxiliaries in the immersion dyeing of textile fibres: part 2: analysis of conventional models that describe the manner by which inorganic electrolytes promote direct dye uptake on cellulosic fibres[J]. Dyes and Pigments, 2019, 161: 531-545.
doi: 10.1016/j.dyepig.2017.08.034
[7] QIN Y, YUAN M, HU Y, et al. Preparation and interaction mechanism of nano disperse dye using hydroxypropyl sulfonated lignin[J]. Int J Biol Macromol, 2020, 152: 280-287.
doi: 10.1016/j.ijbiomac.2020.02.261
[8] 董霞, 阮迪, 郑兆和, 等. 非离子分散剂的结构对C.I.分散黄64稳定性的影响[J]. 印染助剂, 2010, 27(3): 11-15.
DONG Xia, RUAN Di, ZHENG Zhaohe, et al. The influence of nonionic dispersant structure on the dispersion stability of C.I. Disperse Yellow 64[J]. Textile Auxiliaries, 2010, 27(3): 11-15.
[9] 张合杰, 张东江. 有机颜料的晶型特性: 塑胶应用[J]. 上海染料, 2012, 40(4): 31-38.
ZHANG Hejie, ZHANG Dongjiang. Crystal properties of organic pigments[J]. Shanghai Dyestuffs, 2012, 40(4): 31-38.
[10] 邱靖斯, 刘越. 分散染料的细化分散及其对粒径影响研究进展[J]. 纺织学报, 2021, 42(8): 194-201.
QIU Jingsi, LIU Yue. Research progress in superfine dispersion of disperse dyes and its effect on particle-size[J]. Journal of Textile Research, 2021, 42(8): 194-201.
[11] 余丹, 李翔, 刘小成. 二氧化硫脲对有机化合物的还原研究进展[J]. 精细化工中间体, 2014, 44(3): 8-12.
YU Dan, LI Xiang, LIU Xiaocheng. Review on the properties ofthiourea dioxide and reduction of organic compounds with it[J]. Fine Chemical Intermediates, 2014, 44(3):8-12.
[12] MEKSI N, KECHIDA M, MHENNI F. Cotton dyeing by indigo with the borohydride process: effect of some experimental conditions on indigo reduction and dyeing quality[J]. Chemical Engineering Journal, 2007, 131(1-3): 187-193.
doi: 10.1016/j.cej.2007.01.001
[13] ZHOU X J. Studies on indigo dyeing and diffusion by the film roll method[J]. Coloration Technology, 2001, 117(2): 68-75.
doi: 10.1111/j.1478-4408.2001.tb00337.x
[14] 郭梦涵, 王丹阳, 宋瑛, 等. 雌马酚的吸收光谱和荧光光谱研究[J]. 化学研究与应用, 2020, 32(2): 36-41.
GUO Menghan, WANG Danyang, SONG Ying, et al. Study on the aborption and fluorescence spectra of equol[J]. Chemical Research and Application, 2020, 32(2): 36-41.
[15] ROCHA W R, MARTINS V M, COUTINHO K, et al. Solvent effects on the electronic absorption spectrum of formamide studied by a sequential Monte Carlo/quantum mechanical approach[J]. Theoretical Chemistry Accounts, 2002, 108(1): 31-37.
doi: 10.1007/s00214-002-0353-y
[16] BLACKBURN R S, BECHTOLD T, JOHN P. The development of indigo reduction methods and pre-reduced indigo products[J]. Coloration Technology, 2009, 125(4): 193-207.
doi: 10.1111/j.1478-4408.2009.00197.x
[17] 陈戬, 姜会钰, 周莉, 等. 天然靛蓝染色棉针织物的光氧化褪色研究[J]. 针织工业, 2019(9): 32-37.
CHEN Ji, JIANG Huiyu, ZHOU Li, et al. Photo-oxidation and fading of cotton knitted fabric dyed with natural indigo dyes[J]. Knitting Industries, 2019(9): 32-37.
[18] 万旭升, 赖远明. 降温速率对硫酸钠溶液晶体析出影响的试验研究[J]. 冰川冻土, 2016, 38(2): 431-437.
WAN Xusheng, LAI Yuanming. Experimental study on the influence of cooling rate on salt crystallizing in sodium sulfate solution[J]. Journal of Glaciology and Geocryology, 2016, 38(2):431-437.
[1] 侯倩倩, 李文熙, 赵美华. 光催化条件下棉织物的蓝晒工艺印相[J]. 纺织学报, 2022, 43(04): 110-116.
[2] 王东伟, 房宽峻, 刘秀明, 张鑫卿, 安芳芳. 胺化活性红195/聚合物微球的制备及其在棉织物染色中的应用[J]. 纺织学报, 2022, 43(04): 90-96.
[3] 何杨, 张瑞萍, 何勇, 范爱民. 激光改性涤纶织物的分散染料染色性能[J]. 纺织学报, 2022, 43(04): 102-109.
[4] 何颖婷, 李敏, 王瑞丰, 王春霞, 付少海. 涤纶织物的连续式轧染工艺[J]. 纺织学报, 2022, 43(03): 110-115.
[5] 周天博, 郑环达, 蔡涛, 于佐君, 王力成, 郑来久. 活性分散黄染料对涤纶/棉混纺织物的超临界CO2同浴染色[J]. 纺织学报, 2022, 43(03): 116-122.
[6] 马逸平, 樊武厚, 吴晋川, 蒲宗耀. 全水基杂化型无氟防水剂制备及其在涤/棉织物防水整理中应用[J]. 纺织学报, 2022, 43(02): 183-188.
[7] 冯冰冰, 刘艳春, 周天池, 白刚. 分散染料免蒸洗印花糊料的制备及其性能[J]. 纺织学报, 2022, 43(01): 161-166.
[8] 高强, 王晓, 郭亚杰, 陈茹, 魏菊. 棉基Ti3C2Tx油水分离膜的制备及其性能[J]. 纺织学报, 2022, 43(01): 172-177.
[9] 邹梨花, 杨莉, 兰春桃, 阮芳涛, 徐珍珍. 层层组装氧化石墨烯/聚吡咯涂层棉织物的电磁屏蔽性能[J]. 纺织学报, 2021, 42(12): 111-118.
[10] 鲜永芳, 王红梅, 吴明华, 王莉莉. 少/无氨氮助剂在活性染料深色印花中的应用[J]. 纺织学报, 2021, 42(11): 89-96.
[11] 刘淑萍, 李亮, 刘让同, 胡泽栋, 耿长军. 棉织物的3-氨丙基三乙氧基硅烷阻燃整理[J]. 纺织学报, 2021, 42(10): 107-114.
[12] 陈莹, 方浩霞. 疏水性导电聚吡咯整理棉织物的制备及其性能[J]. 纺织学报, 2021, 42(10): 115-119.
[13] 程佩, 傅佳佳, 王蕾, 张建祥, 张凯, 高卫东. 预处理对棉织物免烫整理效果的影响[J]. 纺织学报, 2021, 42(09): 126-130.
[14] 张帆, 张国波, 赵宇新, 张儒, 阳海, 王世豪, 汪南方. 催化氧化皂洗在涤纶/棉织物一浴染色中的应用[J]. 纺织学报, 2021, 42(09): 97-103.
[15] 李维斌, 张程, 刘军. 超疏水棉织物制备及其在油水过滤分离中应用[J]. 纺织学报, 2021, 42(08): 109-114.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
京ICP备14006648号  京公网安备11010502044800号
版权所有 © 2021 《纺织学报》编辑部
地址: 北京市朝阳区延静里中街3号主楼6层《纺织学报》杂志社 邮政编码:100025 
电话:010-65017711,65917740 传真:010-65016539 Email:fangzhixuebao@vip.126.com
本系统由北京玛格泰克科技发展有限公司设计开发