纺织学报 ›› 2019, Vol. 40 ›› Issue (11): 75-80.doi: 10.13475/j.fzxb.20180800907

• 纺织工程 • 上一篇    下一篇

废旧毛/丝/棉混纺面料的组分分析及其剥色工艺

涂莉, 孟家光(), 李欣, 李娟子   

  1. 西安工程大学 纺织科学与工程学院, 陕西 西安 710048
  • 收稿日期:2018-08-03 修回日期:2019-08-09 出版日期:2019-11-15 发布日期:2019-11-26
  • 通讯作者: 孟家光
  • 作者简介:涂莉(1996—),女,硕士生。主要研究方向为纺织新材料新。
  • 基金资助:
    国家科技支撑计划项目(2012BAF13B03);陕西省科技统筹创新工程项目(2014SZS13-Z01)

Composition analysis and stripping process of waste wool/silk/cotton blended fabric

TU Li, MENG Jiaguang(), LI Xin, LI Juanzi   

  1. College of Textile Science and Engineering, Xi'an Polytechnic University, Xi'an, Shaanxi 710048, China
  • Received:2018-08-03 Revised:2019-08-09 Online:2019-11-15 Published:2019-11-26
  • Contact: MENG Jiaguang

RichHTML

5

PDF (PC)

98

摘要:

为提高废旧纺织品的利用率,同时降低染料对回收方法和回收工艺的影响,分析了废旧混纺面料的组分,并采用H2O2/柠檬酸体系对面料进行剥色处理,通过单因素法优化剥色工艺,探讨了H2O2、柠檬酸、Na2SiO3、JFC质量浓度以及pH值、温度、时间等参数对面料白度和断裂强力的影响。结果表明:废旧混纺面料由羊毛、蚕丝和棉组成,且棉、丝、毛的混纺比为75/20/5;最优剥色工艺条件为:H2O2质量浓度10 g/L,柠檬酸质量浓度2 g/L,pH值6,温度80 ℃,时间80 min,Na2SiO3质量浓度1.2 g/L,JFC质量浓度2 g/L,浴比1∶40;在最优剥色工艺条件下,废旧毛/丝/棉混纺面料的白度为54.27%,断裂强力为410.17 cN。

关键词: 废旧纺织品, 面料组分, 羊毛, 蚕丝, 棉, 混纺比, 剥色工艺

Abstract:

In order to improve the utilization rate of waste textiles and reduce the influence of dyes on recycling methods and processes, the compositions of waste blended fabrics were analyzed. The fabric was stripped by an hydrogen peroxide/citric acid system. The stripping process was optimized by a single factor method. The influences of hydrogen peroxide mass concentration, citric acid mass concentration, sodium silicate mass concentration, JFC mass concentration, pH value, temperature, time and other parameters on the whiteness and breaking strength of the fabric were discussed. The results show that the waste blended fabric consists of wool, silk and cotton, and the blending ratio of cotton to silk to wool is 75/20/5. The optimum stripping process is hydrogen peroxide mass concentration of 10 g/L, citric acid mass concentration of 2 g/L, pH value of 6, temperature of 80 ℃, time of 80 min, sodium silicate mass concentration of 1.2 g/L, JFC mass concentration of 2 g/L, and bath ratio of 1∶40. Under the conditions of optimal stripping process, the whiteness of waste wool/silk/cotton blended fabric is 54.27%, and the breaking strength is 410.17 cN.

Key words: waste textiles, fabric composition, wool, silk, cotton, blending ratio, stripping process

中图分类号: 

  • TS199

图1

废旧毛/丝/棉混纺面料经、纬向扫描电镜照片(×2 000)"

表1

废旧毛/丝/棉混纺面料三组分测定结果"

试样序号 毛/丝/棉混纺比
1 0.748/0.210/0.042
2 0.741/0.215/0.044
3 0.745/0.206/0.049
4 0.751/0.207/0.042
5 0.743/0.198/0.059

图2

H2O2质量浓度对混纺面料白度和断裂强力的影响"

图3

柠檬酸质量浓度对混纺面料白度和断裂强力的影响"

图4

pH值对混纺面料白度和断裂强力的影响"

图5

Na2SiO3质量浓度对混纺面料白度和断裂强力的影响"

图6

JFC质量浓度对混纺面料白度和断裂强力的影响"

图7

温度对混纺面料白度和断裂强力的影响"

图8

时间对混纺面料白度和断裂强力的影响"

图9

废旧毛/丝/棉混纺面料剥色前、后的实物图"

[1] 赵伟. 棉与莫代尔、竹纤维混纺系列织物的服用性能研究[J]. 合成材料老化与应用, 2017,46(1):22-27.
ZHAO Wei. Study on the wearability of blended fabrics of cotton, modal and bamboo fiber[J]. Synthetic Materials Aging & Application, 2017,46(1):22-27.
[2] 王飞, 单巨川, 夏源, 等. 废旧纺织品回收与利用问题及对策分析[J]. 再生资源与循环经济, 2017,10(9):18-20.
WANG Fei, SHAN Juchuan, XIA Yuan, et al. Analysis on problems and countermeasures of recycling and reuse of waste textiles[J]. Recyclable Resources & Circular Economy, 2017,10(9):18-20.
[3] 黄兴阳, 周兆懿, 李卫东, 等. 近红外光谱法用于纺织品定量分析的研究[J]. 中国纤检, 2016(1):84-87.
HUANG Xingyang, ZHOU Zhaoyi, LI Weidong, et al. Study on quantitative analysis of textile fabrics by near infrared spectroscopy analysis technology[J]. China Fiber Inspection, 2016(1):84-87.
[4] 查纯喜, 朱庆芳. 核磁共振法定性定量分析纺织面料中的PTT和PET纤维[J]. 上海毛麻科技, 2015(3):2-6.
CHA Chunxi, ZHU Qingfang. The quantitative of PTT and PET fiber mixtures by H NMR method[J]. Shanghai Wool & Jute Journal, 2015(3):2-6.
[5] MA X, WANG X, YIN X, et al. Electrochemical stripping of cotton fabrics dyed with Reactive Black 5 in water and wastewater[J]. Chemosphere, 2018,206:17-25.
pmid: 29723748
[6] 丁鹏飞, 陈宝健, 赵为陶, 等. 废旧涤/棉织物的剥色和分离回收工艺探讨[J]. 江苏丝绸, 2017(3):26-32.
DING Pengfei, CHEN Baojian, ZHAO Weitao, et al. Discussion on stripping, separation and recovery process of waste polyester/cotton fabric[J]. Jiangsu Silk, 2017(3):26-32.
[7] 解昌峰, 刘波, 孙建平, 等. 活性染料染色棉织物的水溶液浸渍光催化剥色[J]. 纺织学报, 2017,38(9):81-88.
XIE Changfeng, LIU Bo, SUN Jianping, et al. Photocatalytic color stripping of cotton fabric dyed with reactive dye by employing UV/H2O systerm[J]. Journal of Textile Research, 2017,38(9):81-88.
[8] EREN S, GÜMÜS B, EREN H A. Colour stripping of reactive:dyed cotton by ozone treatment[J]. Coloration Technology, 2016,132(6):466-471.
[9] AHMAD M A, AFANDI N S, BELLO O S. Optimization of process variables by response surface methodology for malachite green dye removal using lime peel activated carbon[J]. Applied Water Science, 2017,7(2):717-727.
[10] RAMADAN M A, RASLAN W M, ABDEL-HADY M, et al. Novel method for fast bleaching of cellulose acetate fabric by using H2O2 aided by ultrasonic waves[J]. Research Journal of Textile & Apparel, 2013,17(4):40-48.
[11] SI F, YAN K, ZHANG X. Study on H2O2/TAED and H2O2/TBCC bleaching mechanism related to hydroxyl radical with a fluorescent probe[J]. Carbohydrate Polymers, 2014,103(1):581-586.
[12] 徐建锋, 杨帆, 杨李慧, 等. 金属酞菁/过氧化氢/四乙酰乙二胺体系对染色棉织物的剥色性能研究[J]. 现代纺织技术, 2015,23(3):16-20.
XU Jianfeng, YANG Fan, YANG Lihui, et al. Stripping performance of metal phthalocyanine/hydrogen peroxide/TAED system on dyed cotton fabrics[J]. Advanced Textile Technology, 2015,23(3):16-20.
[13] TANG P, JI B, GANG S. Whiteness improvement of citric acid crosslinked cotton fabrics: H2O2, bleaching under alkaline condition[J]. Carbohydrate Polymers, 2016,147:139-145.
pmid: 27178918
[14] 朱凯棋, 赵静, 李美真. 蚕丝/羊绒染色同色性问题研究[J]. 上海纺织科技, 2016(6):40-41.
ZHU Kaiqi, ZHAO Jing, LI Meizhen. Union dyeing property of silk/cashmere blends[J]. Shanghai Textile Science & Technology, 2016(6):40-41.
[15] 田鹏飞, 盛依依, 孙杨, 等. Cu/Al2O3催化剂用于H2O2分解生成羟基自由基的效率[J]. 化工学报, 2018,69(11):4713-4721.
TIAN Pengfei, SHENG Yiyi, SUN Yang, et al. Formation efficiency of hydroxyl radical from H2O2 decomposition over Cu/Al2O3 catalyst[J]. CIESC Journal, 2018,69(11):4713-4721.
[1] 王博, 凡力华, 原韵, 殷允杰, 王潮霞. 可拉伸聚吡咯/ 棉针织物的制备及其储电性能[J]. 纺织学报, 2020, 41(10): 101-106.
[2] 徐守东, 冷奕锦, 吴国新. 基于神经网络的籽棉颜色分级检测[J]. 纺织学报, 2020, 41(10): 34-40.
[3] 黄阳阳, 刘伟, 华英, 赵中琦, 徐劲. 幼童用智能示警蚕丝被的研发[J]. 纺织学报, 2020, 41(10): 150-157.
[4] 胡文, 王迪, 陈晓川, 汪军, 李勇. 锯齿轧花中含棉籽棉朵模型的构建与仿真[J]. 纺织学报, 2020, 41(09): 27-32.
[5] 张祝辉, 张典堂, 钱坤, 徐阳, 陆健. 广角机织物的织造工艺及其偏轴拉伸力学性能[J]. 纺织学报, 2020, 41(08): 27-31.
[6] 曾玉晖, 张亭亭, 王克作, 何力, 陈益人. 天然彩棉后整理加工中颜色稳定性的影响因素[J]. 纺织学报, 2020, 41(08): 45-49.
[7] 李瑞卿, 王伟, 魏炳举, 周长文, 张淑桃. 应用环保型还原剂的硫化黑染色工艺[J]. 纺织学报, 2020, 41(08): 50-54.
[8] 曹继鹏, 张明光, 于学智. 刺辊速度对棉结变化和重新分布的影响[J]. 纺织学报, 2020, 41(07): 35-39.
[9] 张梦阳, 陈晓川, 汪军, 李勇. 基于ANSYS CFX 的棉纤维马克隆值的建模与仿真[J]. 纺织学报, 2020, 41(07): 29-34.
[10] 邵金鑫, 张宝昌, 曹继鹏. 基于图像处理与深度学习方法的棉纤维梳理过程纤维检测识别技术[J]. 纺织学报, 2020, 41(07): 40-46.
[11] 陈文豆, 张辉, 陈天宇, 武海良. 二氧化钛水热改性涤/ 棉混纺织物的自清洁性能[J]. 纺织学报, 2020, 41(07): 122-128.
[12] 丁永生, 代亚敏, 钟毅, 徐红, 毛志平, 张琳萍, 陈支泽. 棉纱线在活性染料皮克林乳液体系中的染色动力学[J]. 纺织学报, 2020, 41(07): 101-108.
[13] 刘国金, 石峰, 陈新祥, 张国庆, 周岚. 聚氨酯/ 相变蜡蓄热调温功能整理剂的制备及其在棉织物上的应用[J]. 纺织学报, 2020, 41(07): 129-134.
[14] 宋慧君, 翟亚丽, 钞意元, 朱超宇. 蚕丝织物的栀子蓝色素染色[J]. 纺织学报, 2020, 41(06): 81-85.
[15] 张炜, 毛庆楷, 朱鹏, 柴雄, 李惠军. 乙醇/ 水体系中改性蚕丝织物的活性染料染色动力学和热力学[J]. 纺织学报, 2020, 41(06): 86-92.
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