Formation and structure of polytetrafluoroethylene fibrils

被引:0
|
作者
机构
[1] Zhang, Dong-Na
[2] Kou, Kai-Chang
[3] Zhang, Yu.
[4] Zhao, Qing-Xin
[5] Zheng, Zhen-Chao
来源
Zhang, D.-N. (zhangdongna112@gmail.com) | 1600年 / John Wiley and Sons Inc卷 / 130期
关键词
Polytetrafluoroethylene (PTFE) is a semi-crystalline polymer whose fibrils can be easily formed by stretching because of its low tensile activation energy. We prepared two series of PTFE samples with different elongations and degrees of crystallinity; respectively. The morphology analysis of the first series determined that cavities were formed in the PTFE matrix under stretching; and this was a prerequisite for forming fibrils. The barrier between cavities became long and slim under tension; and grew into fibrils finally. It could be found that higher crystallinity is more suitable for forming fibrils. The main part of the fibrils' structure was semi-crystalline; and the degree of crystallinity could grow under stretching. Besides; the thickness of the lamellae decreased; while the crystalline grain refined at the same time. In the measurement of X-ray diffraction; it could be found that the lattice plane (108) was more sensitive to stretching; which could rotate to other positions. © 2013 Wiley Periodicals; Inc; J; Appl; Polym; Sci; 130:; 3710-3717; 2013 Copyright © 2013 Wiley Periodicals;
D O I
暂无
中图分类号
学科分类号
摘要
Journal article (JA)
引用
收藏
相关论文
共 50 条
  • [41] The delicate structure of animal fibrils
    Schmidt, WJ
    NATURWISSENSCHAFTEN, 1924, 12 : 296 - 303
  • [42] THE STRUCTURE OF MINERALIZED COLLAGEN FIBRILS
    KATZ, EP
    WACHTEL, E
    YAMAUCHI, M
    MECHANIC, GL
    CONNECTIVE TISSUE RESEARCH, 1989, 21 (1-4) : 479 - 488
  • [43] THE STRUCTURE OF COLLAGEN MOLECULES AND FIBRILS
    BEAR, RS
    JOURNAL OF BIOPHYSICAL AND BIOCHEMICAL CYTOLOGY, 1956, 2 (03): : 363 - 368
  • [44] TUBULAR STRUCTURE OF COLLAGEN FIBRILS
    KENNEDY, JJ
    SCIENCE, 1955, 121 (3149) : 673 - 676
  • [45] SUBUNIT STRUCTURE OF AMYLOID FIBRILS
    PICK, AI
    SCHREIBMAN, S
    FROHLICHMANN, R
    LAVIE, G
    ISRAEL JOURNAL OF MEDICAL SCIENCES, 1972, 8 (05): : 659 - +
  • [46] Internal Structure of Methylcellulose Fibrils
    Schmidt, Peter W.
    Morozova, Svetlana
    Ertem, S. Piril
    Coughlin, McKenzie L.
    Davidovich, Irina
    Talmon, Yeshayahu
    Reineke, Theresa M.
    Bates, Frank S.
    Lodge, Timothy P.
    MACROMOLECULES, 2020, 53 (01) : 398 - 405
  • [47] Formation of lysozyme fibrils on a solid support
    E. V. Ukraintsev
    G. A. Kiselev
    A. A. Kudrinskii
    G. V. Lisichkin
    I. V. Yaminskii
    Polymer Science Series B, 2007, 49 : 6 - 9
  • [48] Formation of lysozyme fibrils on a solid support
    Ukraintsev, E. V.
    Kiselev, G. A.
    Kudrinskii, A. A.
    Lisichkin, G. V.
    Yaminskii, I. V.
    POLYMER SCIENCE SERIES B, 2007, 49 (1-2) : 6 - 9
  • [49] FORMATION OF COLLAGEN FIBRILS IN DENTAL PULP
    AVERY, JK
    HAN, SS
    JOURNAL OF DENTAL RESEARCH, 1961, 40 (06) : 1248 - &
  • [50] Amyloid Fibrils: Formation, Polymorphism, and Inhibition
    Hard, Torleid
    JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 2014, 5 (03): : 607 - 614
12345