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高压对溶液中聚左旋乳酸单晶生长的影响

DOI: 10.11858/gywlxb.2014.05.001, PP. 513-518

Keywords: 聚左旋乳酸(PLLA),等温结晶,高压,单晶

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Abstract:

采用高压技术实现了500MPa下聚左旋乳酸(PLLA)在稀薄二甲苯溶液中的单晶生长,采用透射电子显微镜、拉曼光谱和红外光谱对样品的结晶形态和结构进行了表征,考察了高压对聚左旋乳酸单晶生长行为的影响。结果表明,在相同的结晶温度和时间下,高压结晶PLLA的单晶仍为α-型晶体,但单晶尺寸明显大于常压样品;高压环境下PLLA分子链在晶核两端的生长扩散速率不同,容易形成非对称的菱晶形态;高压影响PLLA晶体中分子链的构象分布;在单晶生长期,高压诱导有利于PLLA晶体成核,但不利于单晶生长。

 References

[1]  Fambri L, Pegoretti A, Fenner R, et al. Biodegradable fibres of poly (L-lactic acid) produced by melt spinning [J]. Polymer, 1997, 38(1): 79-85.
[2]  Drumright R E, Gruber P R, Henlon D E. Polylactic acid technology [J]. Adv Mater, 2000, 12(23): 1841-1846.
[3]  Pang X A, Zhuang X L, Tang Z H, et al. Polylactic acid (PLA): Research, development and industrialization [J]. Biotechnol J, 2010, 5(11): 1125-1136.
[4]  Pan P J, Zhu B, Kai W H, et al. Polymorphic transition in disordered Poly (L-lactide) crystals induced by annealing at elevated temperatures [J]. Macromol, 2008, 41(12): 4296-4304.
[5]  Scott G, Gilead D. Degradable Polymer [M]. London: Chapman&Hill, 1995: 128-156.
[6]  Cartier L, Okihara T, Ikada Y, et al. Epitaxial crystallization and crystalline polymorphism of polylactides [J]. Polymer, 2000, 41(25): 8909-8919.
[7]  Iwata T, Doi Y. Morphology and enzymatic degradation of poly (L-lactic acid) single crystals [J]. Macromol, 1998, 31(8): 2461-2467.
[8]  Kalb B, Pennings A J. General crystallization behaviour of poly(L-lactic acid) [J]. Polymer, 1980, 21(6): 607-612.
[9]  Miyata T, Masuko T. Morphology of poly (L-lactide) solution-grown crystals [J]. Polymer, 1997, 38(16): 4003-4009.
[10]  Wunderlich B. Macromolecular Physics: Crystal Structure, Morphology, Defects [M]. London: Academic Press, 1973: 227-289.
[11]  Wunderlich B. Macromolecular Physics: Crystal Nucleation, Growth, Annealing [M]. London: Academic Press, 1976: 344-412.
[12]  Ruan J, Huang H Y, Huang Y F, et al. Thickening-induced faceting habit change in solution-grown poly (L-lactic acid) Crystals [J]. Macromol, 2010, 43(5): 2382-2388.
[13]  Huang Y F, Kao H L, Ruan J, et al. Effects of solution status on single-crystal growth habit of poly (L-lactide) [J]. Macromol, 2010, 43(17): 7222-7227.
[14]  Su L, Li L B, Hu Y, et al. Phase transition of [Cn-mim][PF6] under high pressure up to 1. 0 GPa [J]. J Chem Phys, 2009, 130(18): 184503-184507.
[15]  Pan P, Liang Z, Zhu B, et al. Roles of physical aging on crystallization kinetics and induction period of poly (L-lactide) [J]. Macromol, 2008, 41(21): 8011-8019.
[16]  Rathi S, Kalish J P, Coughlin E B, et al. Utilization of oligo (lactic acid) for studies of chain conformation and chain packing in poly (lactic acid) [J]. Macromol, 2011, 44(9): 3410-3415.
[17]  Yang X, Kang S, Hsu S L, et al. A spectroscopic analysis of chain flexibility of poly (lactic acid) [J]. Macromol, 2001, 34(14): 5037-5041.
[18]  Yang X, Kang S, Yang Y, et al. Raman spectroscopic study of conformational changes in the amorphous phase of poly(lactic acid) during deformation [J]. Polymer, 2004, 45(12): 4241-4248.
[19]  Ungar G, Putra E G R. Asymmetric curvature of {110} crystal growth faces in polyethylene oligomers [J]. Macromol, 2001, 34(15): 5180-5185.

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