Thermal properties and miscibility of semi-crystalline and amorphous PLA blends

被引:0
|
作者
机构
[1] [1,2,Gao, Chengcheng
[2] Bao, Xianyang
[3] Yu, Long
[4] Liu, Hongsheng
[5] Simon, George P.
[6] Chen, Ling
[7] Liu, Xingxun
来源
Yu, L. (felyu@scut.edu.cn) | 1600年
关键词
The focus of this research is the study of the microstructures and miscibility at the interface between semi-crystalline and amorphous PLAs [poly (l-lactic acid)(PLLA) with poly (l; d-lactic acid)(PDLLA); respectively]. The blends are prepared through thermal processing (extrusion and hot-pressing). To increase the area of interface between PDLLA and PLLA; the fibers from PLLA and PDLLA are used. Thermal and microstructures of the blends were studied by differential scanning calorimetry (DSC); polarized optical microscopy (POM); dynamic thermogravimetric analysis(DMA); small-angle X-ray diffraction(SAXS) and wide-angle X-ray diffraction (WAXD). The two PLAs are miscible in molten state. However; phase separation is detected after various thermal treatments; with PDLLA being excluded from the regions of interlamellar PLLA regions when PDLLA content is low; as determined from X-ray diffraction studies. The compatibility between the two PLAs is not perfect in the molten state; since enthalpies of the various blends at Tg are lower than any pure PLA material. The semi-crystalline PLLA fiber can recrystallize alone in the molten amorphous PDLLA; and a higher nuclei density is observed at the interface. © 2014 Wiley Periodicals; Inc;
D O I
暂无
中图分类号
学科分类号
摘要
Article in Press
引用
收藏
相关论文
共 50 条
  • [31] Thermally Stimulated Current Spectroscopy of Amorphous and Semi-Crystalline Polymers
    C. Bacharan
    C. Dessaux
    A. Bernès
    C. Lacabanne
    Journal of Thermal Analysis and Calorimetry, 1999, 56 : 969 - 982
  • [32] Morphological implications of the interphase bridging crystalline and amorphous regions in semi-crystalline polymers
    Rastogi, S
    Terry, AE
    INTERPHASES AND MESOPHASES IN POLYMER CRYSTALLIZATION I, 2005, 180 : 161 - 194
  • [33] ORIENTATION AND STRETCHING MECHANISMS IN AMORPHOUS AND SEMI-CRYSTALLINE POLYCARBONATE FIBERS
    VONFALKAI, B
    SPILGIES, G
    BIANGARDI, HJ
    ANGEWANDTE MAKROMOLEKULARE CHEMIE, 1982, 108 (NOV): : 41 - 60
  • [34] Semi-crystalline syndiotactic polystyrene aerogel with sulfonated amorphous phases
    Borriello, Anna
    Venditto, Vincenzo
    Daniel, Christophe
    Guerra, Gaetano
    Ambrosio, Luigi
    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2012, 243
  • [35] Amorphous rigidification and cooperativity drop in semi-crystalline plasticized polylactide
    Varol, N.
    Delpouve, N.
    Araujo, S.
    Domenek, S.
    Guinault, A.
    Golovchak, R.
    Ingram, A.
    Delbreilh, L.
    Dargent, E.
    POLYMER, 2020, 194
  • [36] Primary and secondary dielectric relaxations in semi-crystalline and amorphous starch
    Laredo, Estrella
    Newman, Dinorah
    Bello, Alfredo
    Mueller, Alejandro J.
    EUROPEAN POLYMER JOURNAL, 2009, 45 (05) : 1506 - 1515
  • [37] Thermally stimulated current spectroscopy of amorphous and semi-crystalline polymers
    Bacharan, C
    Dessaux, C
    Bernès, A
    Lacabanne, C
    JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 1999, 56 (03): : 969 - 982
  • [38] Phase ordering in blend films of semi-crystalline and amorphous polymers
    Ferreiro, V
    Douglas, JF
    Amis, EJ
    Karim, A
    MACROMOLECULAR SYMPOSIA, 2001, 167 : 73 - 88
  • [39] Static and Dynamic Properties of Semi-Crystalline Polyethylene
    Xu, Ming-ming
    Huang, Guang-yan
    Feng, Shun-shan
    McShane, Graham J.
    Stronge, William J.
    POLYMERS, 2016, 8 (04)
  • [40] Miscibility of Crystalline/Amorphous/Crystalline Biopolymer Blends from PLLA/PLLA/PHB with Additives
    El-Hadi, Ahmed M.
    POLYMER-PLASTICS TECHNOLOGY AND MATERIALS, 2019, 58 (01): : 31 - 39
12345