纺织学报 ›› 2019, Vol. 40 ›› Issue (07): 1-76.doi: 10.13475/j.fzxb.20180701407

• 纤维材料 •    下一篇

基于N-甲基吗啉-N-氧化物溶剂制备聚芳砜酰胺/纤维素阻燃纤维

程筒1, 姚勇波2, 陈忠丽1, 靳宏1, 吴开建1, 王乐军3, 刘怡宁3, 张玉梅1()   

  1. 1. 东华大学 纤维材料改性国家重点实验室, 上海 201620
    2. 嘉兴学院, 浙江 嘉兴 314001
    3. 恒天纤维集团有限公司, 北京 100020
  • 收稿日期:2018-07-05 修回日期:2019-03-25 出版日期:2019-07-15 发布日期:2019-07-25
  • 通讯作者: 张玉梅
  • 作者简介:程筒(1994-),男,硕士生。主要研究方向为纤维素纤维的功能化。
  • 基金资助:
    国家自然科学基金项目(51773032);国家自然科学基金项目(21704034)

Preparation of flame retardant aromatic polysulfonamide/cellulose fibers with N-methylmorpholine-N-oxide monohydrate as solvent

CHENG Tong1, YAO Yongbo2, CHEN Zhongli1, JIN Hong1, WU Kaijian1, WANG Lejun3, LIU Yining3, ZHANG Yumei1()   

  1. 1. State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, Donghua University, Shanghai 201620, China
    2. Jiaxing University, Jiaxing, Zhejiang 314001, China
    3. Hi-Tech Fiber Group Co., Ltd., Beijing 100020, China
  • Received:2018-07-05 Revised:2019-03-25 Online:2019-07-15 Published:2019-07-25
  • Contact: ZHANG Yumei

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摘要:

为制备兼具阻燃和吸湿性能的纤维,采用N-甲基吗啉-N-氧化物(NMMO)水溶液为共溶剂,分别将纤维素(cellulose)和聚芳砜酰胺(PSA)溶解后进行共混制备纺丝液,通过干喷湿法纺丝制备PSA/cellulose共混纤维,并对纺丝液及共混纤维的结构和性能进行表征与分析。结果表明:NMMO对PSA具有良好的溶解性能,纺丝液均质、稳定,制备的共混纤维呈现出PSA富集于纤维表层的类皮-芯结构;PSA/cellulose纤维具有良好的阻燃性能、吸湿性能和力学性能,当纤维素质量分数达到30%时,共混纤维仍可达到阻燃纤维标准,其断裂强度为2.08 cN/dtex,无需后道牵伸处理就能达到较高的强度,此时PSA/cellulose纤维的回潮率提高为8%,具有良好的可染性。

关键词: 聚芳砜酰胺, 纤维素, N-甲基吗啉-N-氧化物, 阻燃纤维

Abstract:

In order to prepare fibers with flame retardant property and good hygroscopicity, N-methylmorpholine-N-oxide monohydrate (NMMO·H2O) was used as co-solvent to dissolve aromatic polysulfonamide (PSA) and cellulose, and the PSA/cellulose blend fibers were fabricated by dry-jet wet spinning. The structure and properties of spinning solution and blended fibers were characterized and analyzed. It is found that NMMO·H2O can dissolve PSA well, and the spinning solution is homogeneous and stable. An analogous ″sheath-core″ morphology is observed in the fibers as PSA distributed more in the sheath domain. The flame retardant property, moisture absorption ability and the mechanical property of the PSA/cellulose blended fibers are good. When the cellulose content is 30% in the blend fiber, the blend fibers still meet the requirement of flame retardant fiber standards. The tensile strength of the blend fiber is up to 2.08 cN/dtex, which shows a good tensile strength without post treatment. The moisture regain of PSA/cellulose fibers is up to 8%, and the dyeability is also improved.

Key words: aromatic polysulfonamide, cellulose, N-methylmorpholine-N-oxide monohydrate, flame retardant fiber

中图分类号: 

  • TQ341.5

图1

不同共混比PSA/cellulose/NMMO·H2O溶液分别在不同温度下的稳态流变曲线"

图2

PSA/cellulose /NMMO·H2O共混溶液分别在不同"

图3

黏流活化能随共混比的变化"

图4

PSA/cellulose纤维的表面SEM照片"

图5

PSA/cellulose纤维的截面SEM照片"

图6

PSA/cellulose纤维的LSCM图"

图7

PSA/cellulose纤维的XRD谱图"

表1

PSA/cellulose纤维的力学性能"

样品
名称		 线密度/
dtex		 模量/
(cN·dtex-1)		 断裂
伸长率/%		 断裂强度/
(cN·dtex-1)
PSA 4.02 17.1 56 1.14
PC9/1 3.43 39.7 43 1.52
PC8/2 4.24 44.9 23 1.55
PC7/3 2.65 71.5 14 2.08
cellulose 4.13 88.3 16 3.40

Tab 2

Flame retardancy and moisture regain of PSA/cellulose fibers"

样品 LOI值/% 离火自熄时间/s 回潮率/%
PSA 30.0 <1 5.9
PC9/1 28.7 <1 7.4
PC8/2 27.6 <2 7.7
PC7/3 26.6 <5 8.0
cellulose 18.0 不自熄 10.0

图8

不同共混比PSA/cellulose纤维染色情况对比图"

[1] 于金超, 杨春雷, 陈晟辉 , 等. 聚芳砜酰胺纤维的研究进展[J]. 产业用纺织品, 2014,32(12):1-8.
YU Jinchao, YANG Chunlei, CHEN Shenghui , et al. Progress of aromatic polysulfonamides fiber[J]. Technical Textiles, 2014,32(12):1-8.
[2] 班燕, 张玉华, 任加荣 . 芳砜纶在耐高温滤料中的应用[J]. 产业用纺织品, 2006,24(12):33-36.
BAN Yan, ZHANG Yuhua, REN Jiarong . The application of polysulfonamide fiber in high temperature resistant filtration material[J]. Technical Textiles, 2006,24(12):33-36.
[3] 汪晓峰, 张玉华 . 芳砜纶的性能及其应用[J]. 纺织导报, 2005(1):18-20.
WANG Xiaofeng, ZHANG Yuhua . Properties and applications of polysulfonamide fiber[J]. China Textile Leader, 2005(1):18-20.
[4] STUHIMANN I, 王宗伟 . 芳砜纶(PSA)在阻燃和防火纺织品上的应用[J]. 国际纺织导报, 2009,37(3):64-64.
STUHIMANN I, WANG Zongwei . Tanlon PSA fibers for flame and fire resistant textiles[J]. Melliand China, 2009,37(3):64-64.
[5] 彭浩凯, 郑帼 . 氧气等离子体处理对芳砜纶纤维表面性能的影响[J]. 高分子材料科学与工程, 2015,31(6):122-125.
PENG Haokai, ZHENG Guo . Effect of oxygen plasma treatment on surface modification of polysulfonamide fiber[J]. Polymeric Materials Science and Engineering, 2015,31(6):122-125.
[6] 李旭明, 曹婵珍, 陈桂云 , 等. 等离子体处理对原棉织物亲水性的影响[J]. 纺织学报, 2011,32(12):24-27.
LI Xuming, CAO Chanzhen, CHEN Guiyun , et al. Influence of plasma treatment on hydrophilicity of raw cotton fabrics[J]. Journal of Textile Research, 2011,32(12):24-27.
[7] 陈志军, 黄年华, 张泽辉 , 等. 紫外光引发丙烯酰胺接枝改性棉织物亲水性的研究[J]. 染整技术, 2012,34(1):1-4.
CHEN Zhijun, HUANG Nianhua, ZHANG Zehui . Study on the hydrophilicity of acrylamide grafting modified cotton fabric initiated by ultraviolet light[J]. Textile Dyeing and Finishing Journal, 2012,34(1):1-4.
[8] NDLOVU L N, SIDDIQUI Q, OMOLLO E , et al. Physical properties of plain single jersey-knitted fabrics made from blended and core-spun polysulfonamide/cotton yarns[J]. Textile Research Journal, 2015,85(3):262-271.
[9] 吴万涛 . 聚芳砜酰胺纺丝工艺与纤维结构性能研究[D]. 上海:东华大学, 2010: 28-50.
WU Wantao . Relationship between spinning technology and structure property of polysulfonamide fiber[D]. Shanghai: Donghua University, 2010: 28-50.
[10] WU K, YAO Y, YU J , et al. Cellulose/aromatic polysulfonamide blended fibers with improved proper-ties[J]. Cellulose, 2017,24(8):1-10.
[11] WU K, YU J, YANG J , et al. Properties and phase morphogy of cellulose/aromatic polysulfonamide alloy fibers regulated by the viscosity ratio of solution[J]. Cellulose, 2017(12):1-12.
[12] GOLOVA L K, MAKAROV I S, MATUKHINA E V , et al. Solutions of cellulose and its blends with synthetic polymers in N-methylmorpholine-N-oxide: preparation, phase state, structure, and properties[J]. Polymer Science, 2010,52(11):1209-1219.
[13] ONISHI H, MACHIDA Y . Biodegradation and distribution of water-soluble chitosan in mice[J]. Biomaterials, 1999,20(2):175-182.
doi: 10.1016/s0142-9612(98)00159-8 pmid: 10022787
[14] ROUS M A, MANIAN A P, RODER T , et al. Fluorescent molecular probes for the characterisation of fibre structure and distribution of textile resin finishing on Lyocell[J]. Lenzinger Berichte, 2004(83):92-98.
[15] UTRACKI L A, KANIAL M R . Melt rheology of polymer blends[J]. Polymer Engineering & Science, 1982,22(22):96-114.
[16] UTRACKI L A . Melt flow of polymer blends[J]. Polymer Engineering & Science, 1983,23(11):602-609.
[17] PAN Z, CHEN Y, ZHU M , et al. The non-uniform phase structure in blend fiber: II: the migration phenomenon in melt spinning[J]. Fibers and Polymers, 2010,11(4):625-631.
[18] YU J, TIAN F, CHEN S , et al. Structure and property devel opment of aromatic copolysulfonamide fibers during wet spinning process[J]. Journal of Applied Polymer Science, 2015,132(31).
[19] 侯学妮, 周国丽, 王祥荣 . 纺织品阻燃性能测试和评价方法的分析[J]. 印染助剂, 2015(5):49-52.
HOU Xueni, ZHOU Guoli, WANG Xiangrong . Comparison and analysis of testing and evaluation method for flame-retardant performance of textiles[J]. Textile Auxiliaries, 2015(5):49-52.
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