Effects of Alkali Treatment on the Structure of Tencel Fibers

被引:0
|
作者
朱亚伟
任学宏
吴徵宇
机构
[1] Auburn AL36849
[2] Auburn University
[3] China
[4] Department of Material Engineering
[5] Department of Textile Engineering
[6] Jiangsu 215021
[7] Soochow University
[8] Suzhou
[9] USA
来源
Journal of DongHua University | 2004年 / 05期
关键词
structure; X-ray diffraction; Raman spectrum; cellulosic fibers; alkali;
D O I
10.19884/j.1672-5220.2004.05.026
中图分类号
TS195 [整理];
学科分类号
082103 ;
摘要
Alkali treatment can change the structures and properties of cellulosic fibers. The aim of this work was to study the mechanism of structure changes of Tencel fibers treated with different alkali concentration and two treatment methods. Raman spectrum showed that the molecular conformation of Tencel fibers remained unchanged. XRD (X-ray diffraction) indicated that the crystallinty of Tencel fibers in original length increased while that of fibers in relaxation condition remained unchanged. The average crystallite size increased and the orientation index decreased. The quasi-crystallite disassociation and recrystallization in the quasi-crystalline phase during the process of alkali treatment lead to the changes of the crystallinity and the orientation index of Tencel fibers.
引用
收藏
页码:111 / 115
页数:5
相关论文
共 50 条
  • [1] Influence of alkali treatment on the structure of newcell fibers
    Zhu, YW
    Ren, YH
    Wu, CY
    JOURNAL OF APPLIED POLYMER SCIENCE, 2004, 93 (04) : 1731 - 1735
  • [2] Changes in the Inter- and Intra- Fibrillar Structure of Lyocell (TENCEL®) Fibers after KOH Treatment
    Ozturk, Hale Bahar
    Abu-Rous, Mohammad
    MacNaughtan, Bill
    Schuster, K. Christian
    Mitchell, John R.
    Bechtold, Thomas
    UTILIZATION OF LIGNOCELLULOSIC MATERIALS, 2010, 294-II : 24 - +
  • [3] Effects of tetramethylammonium hydroxide (TMAH) treatment on interfibrillar structure of lyocell (TENCEL) fibres
    Ozturk, H. B.
    MacNaughtan, B.
    Mitchell, J. R.
    Bechtold, T.
    MATERIALS RESEARCH INNOVATIONS, 2010, 14 (03) : 224 - 230
  • [4] Changes in the intra- and inter-fibrillar structure of lyocell (TENCEL®) fibers caused by NaOH treatment
    Hale Bahar Öztürk
    Antje Potthast
    Thomas Rosenau
    Mohammad Abu-Rous
    Bill MacNaughtan
    K. Christian Schuster
    John R. Mitchell
    Thomas Bechtold
    Cellulose, 2009, 16
  • [5] Effect of Alkali Treatment of Nettle Fibers on Oil Absorbency
    Viju, S.
    Thilagavathi, G.
    JOURNAL OF NATURAL FIBERS, 2021, 18 (12) : 2092 - 2101
  • [6] Influence of Alkali Treatments on Structure and Mechanical Properties of PTT Fibers
    Zheng Jinhuan
    Liang, Liang
    Ying, Yin
    PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON ADVANCED TEXTILE MATERIALS & MANUFACTURING TECHNOLOGY, 2008, : 226 - 231
  • [7] Alkali treatment on nettle fibers: Part I: investigation of chemical, structural, physical, and mechanical characteristics of alkali-treated nettle fibers
    Kumar, Navdeep
    Das, Dipayan
    JOURNAL OF THE TEXTILE INSTITUTE, 2017, 108 (08) : 1461 - 1467
  • [8] Effects of alkali treatment on equilibrium moisture contents and fine structure of sugi (Cryptomeria japonica)
    Hata, S
    Saito, Y
    Arima, T
    MOKUZAI GAKKAISHI, 1999, 45 (04): : 273 - 280
  • [9] Effect of Alkali Metals and Alkaline Earth Metals Hydroxides on the Structure of Wool Fibers
    Abou Taleb, M.
    Mowafi, S.
    Vineis, C.
    Varesano, A.
    Sanchez Ramirez, D. O.
    Tonetti, C.
    El-Sayed, H.
    JOURNAL OF NATURAL FIBERS, 2022, 19 (09) : 3351 - 3364
  • [10] Influence of Alkali Treatment on Morphology, Structure and Properties of Dry-Spinning Two-Step Method Jialun Polyimide Fibers
    Chen L.
    Long Z.
    Zhang Y.
    Wang S.
    Li Z.
    Guo S.
    Long, Zhu (longzhu@jiangnan.edu.cn), 1600, Sichuan University (33): : 94 - 99
12345