纺织学报 ›› 2020, Vol. 41 ›› Issue (02): 83-88.doi: 10.13475/j.fzxb.20181205006

• 染整与化学品 • 上一篇    下一篇

植酸的铵化及其对Lyocell织物的阻燃整理

徐爱玲, 王春梅()   

  1. 南通大学 纺织服装学院, 江苏 南通 226019
  • 收稿日期:2018-12-24 修回日期:2019-11-10 出版日期:2020-02-15 发布日期:2020-02-21
  • 通讯作者: 王春梅
  • 作者简介:徐爱玲(1995—),女,硕士生。主要研究方向为纺织品的阻燃整理。
  • 基金资助:
    南通市前沿与关键技术创新计划工业创新科技项目(GY22015026);南通大学研究生创新项目(FZ201807)

Ammonium modification of phytic acid and flame retardant finishing of Lyocell fabric

XU Ailing, WANG Chunmei()   

  1. School of Textile and Clothing, Nantong University, Nantong, Jiangsu 226019, China
  • Received:2018-12-24 Revised:2019-11-10 Online:2020-02-15 Published:2020-02-21
  • Contact: WANG Chunmei

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摘要:

为提高Lyocell织物的阻燃效果,对天然磷化物植酸进行铵化改性,并以双氰胺为催化剂应用于Lyocell织物的阻燃整理。利用傅里叶红外光谱仪、扫描电子显微镜、热重分析仪,测定了阻燃整理Lyocell织物的特征红外吸收、表面形貌以及热稳定性能。对阻燃织物进行了垂直燃烧实验,测定了织物的燃烧性能,并对整理织物的耐洗性进行了测试。结果表明:与未整理Lyocell织物相比,阻燃整理后织物的吸热降解质量损失率下降了20.11%,800 ℃ 时热解残炭量提高了27.98%,垂直燃烧的损毁长度下降至3.4 cm;极限氧指数高达36.6%,达到难燃的级别;且阻燃织物经20次标准洗涤后,仍能达到国家B2标准。

关键词: 植酸, 铵化改性, 阻燃整理, Lyocell织物, 阻燃织物

Abstract:

In order to improve the flame retardancy of Lyocell fabrics, the natural phytic acid was ammonium modified, and the dicyandiamide was used as catalyst for flame retardant finishing of Lyocell fabrics. The characteristic groups of phytic acid ammonium were characterized by Fourier transform infrared spectroscopy. By means of Fourier transform infrared spectroscopy, scanning electron microscopy, thermogravimetric analysis, vertical burning instrument and limiting oxygen index, the infrared absorption, surface morphology and thermal stability of the finishing Lyocell fabric were determined. The results show that, compared with the unfinished Lyocell fabric, the mass loss rate of endothermic degradation decreases by 20.11%, the amount of carbon increases by 27.98% at 800 ℃. The vertical burning damage length of the finished Lyocell fabric decreases to 3.4 cm, the limiting oxygen index is up to 36.6%, reaching an acceptible flame retardant level. After 20 standard washings, the Lyocell fabrics finished with the flame retardant can still reach the requirements set in standard GB B2.

Key words: phytic acid, ammonium modification, flame retardant finishing, Lyocell fabric, flame retardant fabric

中图分类号: 

  • TS195.2

图1

植酸铵、植酸和尿素的FT-IR谱图"

图2

植酸铵、未整理及整理后织物的红外光谱图"

图3

阻燃整理前后Lyocell织物的TG和DTG曲线"

表1

阻燃整理前后Lyocell织物在氮气中的热解数据"

样品 失重
阶段		 初始温
度/℃		 终止温
度/℃		 质量损
失率/%		 800 ℃残
余炭量/%
阶段1 28 220 6.14
原样 阶段2 220 359 61.13 8.55
阶段3 359 770 23.79
阶段1 28 174 6.00
整理织物 阶段2 174 357 41.02 36.53
阶段3 357 770 15.38

图4

阻燃整理前后Lyocell织物的SEM照片(×500)"

图5

阻燃整理前后Lyocell织物的SEM照片(×3 000)"

图6

Lyocell织物阻燃整理前后残渣的SEM照片(×3 000)"

表2

阻燃整理前后Lyocell织物的燃烧性能"

样品 未水洗 水洗20次
LOI值/% 续燃时间/s 阴燃时间/s 损毁炭长/cm 续燃时间/s 阴燃时间/s 损毁炭长/cm
原织物 <25.0 23 134 30.0 25 130 30.0
整理织物 36.6 0 0 3.4 0 0 3.8

图7

垂直燃烧实验织物图片"

表3

阻燃整理前后Lyocell织物的白度与力学性能"

织物编号 抗弯长度/cm 白度/% 断裂强力/N
1# 3.5 77.8 752
2# 4.5 57.9 524
3# 4.2 64.2 486
4# 4.4 58.4 536
[1] 高树珍, 迟文锐, 王兵兵, 等. 磷-氮耐氯阻燃整理剂的合成及其应用[J]. 纺织学报, 2018,39(6):101-105.
GAO Shuzhen, CHI Wenrui, WANG Bingbing, et al. Synjournal and application of phosphorus-nitrogen chlorine-resistant flame retardant finishing agent[J]. Journal of Textile Research, 2018,39(6):101-105.
[2] 任元林, 张悦, 曾倩, 等. 织物阻燃涂层新工艺的研究进展[J]. 纺织学报, 2017,38(9):168-173.
REN Yuanlin, ZHANG Yue, ZENG Qian, et al. Research progress on new technology of fabric flame retardant coating[J]. Journal of Textile Research, 2017,38(9):168-173.
[3] LIU Xiaohui, ZHANG Qiuyan, CHENG Bowen, et al. Durable flame retardant cellulosic fibers modified with novel, facile and efficient phytic acid-based finishing agent[J]. Cellulose, 2018,25:799-811.
[4] 蒋立, 刘群, 丁斌, 等. 纯棉织物的磷氮膨胀型阻燃整理[J]. 印染, 2016(9):39-43.
JIANG Li, LIU Qun, DING Bin, et al. Phosphorus-nitrogen expansion type flame retardant finishing of cotton fabric[J]. China Dyeing & Finishing, 2016(9):39-43.
[5] 范宝养, 丁颖, 沈勇, 等. 环保型阻燃剂在纺织品中的应用进展[J]. 上海工程技术大学学报, 2017,31(1):36-50.
FAN Baoyang, DING Ying, SHEN Yong, et al. Progress in the application of environmentally friendly flame retardants in textiles[J]. Journal of Shanghai University of Engineering Science, 2017,31(1):36-50.
[6] 曾倩, 任元林. 纤维织物阻燃研究进展[J]. 纺织科学与工程学报, 2018,35(1):159-163.
ZENG Qian, REN Yuanlin. Research progress on flame retardancy of fiber fabrics[J]. Journal of Textile Science and Engineering, 2018,35(1):159-163.
[7] NOROUZI M, ZARE Y, KIANY P. Nanoparticles as effective flame retardants for natural and synthetic textile polymers: application, mechanism, and optimization[J]. Polymer Reviews, 2015,55:531-560.
[8] ABOU-OKEIL A, EL-SAWY S M, ABDEL-MOHDY F A. Flame retardant cotton fabrics treated with organophosphorus polymer[J]. Carbohydrate Polymers, 2013,92:2293-2298.
doi: 10.1016/j.carbpol.2012.12.008 pmid: 23399290
[9] FENG Yajuan, ZHOU Yang, LI Daikun, et al. A plant-based reactive ammonium phytate for use as a flame-retardant for cotton fabric[J]. Carbohydrate Polymers, 2017,175:636-644.
doi: 10.1016/j.carbpol.2017.06.129
[10] 卢生, 林杰, 路艳华, 等. 用含三嗪结构苯基磷酸酯的涤纶织物阻燃整理[J]. 纺织学报, 2018,39(3):98-102.
LU Sheng, LIN Jie, LU Yanhua, et al. Flame retardant finishing with polyester fabric containing triazine structure phenyl phosphate[J]. Journal of Textile Research, 2018,39(3):98-102.
[11] 贾丽霞, 金崇业, 刘瑞, 等. 硅磷杂化阻燃整理对羊毛结构与热稳定性能的影响[J]. 纺织学报, 2017,38(12):101-105.
JIA Lixia, JIN Chongye, LIU Rui, et al. Influence of flame retardant finishing with silicon-phosphorus hybridization on structure and thermal stability of wool[J]. Journal of Textile Research, 2017,38(12):101-105.
[12] LIU Huan, WANG Xiaodong, WU Denzhen. Preparation, isothermal kinetics, and performance of a novel epoxy thermosetting system based on phosphazene-cyclomatrix network for halogen-free flame retardancy and high thermal stability[J]. Thermochim Acta, 2015,607:60-73.
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