光谱学与光谱分析 |
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Time-resolved FTIR Study of Amorphous Process of Nylon 6 with Calcium Chloride |
CHENG Xu,HE Qi-jia,ZHANG Ai-min |
The State Key Laboratory of Polymer Material Engineering, Polymer Research Institute of Sichuan University, Chengdu 610065, China |
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Abstract The influence of calcium chloride on the crystallinity of nylon 6 was studied by means of time-resolved FTIR, WADX and DSC. The results show that the crystallinity of nylon 6 decreased with the increase of CaCl2, and finally nylon 6 changed from crystal phase to amorphous phase. Because hydrogen bond is the main reason that nylon has three-dimensional ordered structure and forms crystalline phase, we further studied the changes of wave number of NH, amideⅠand amideⅡ related to hydrogen bond in CaCl2/PA6 complexes by time-resolved FTIR. These studies indicate that in the chloroethanol solution of nylon 6 and calcium chloride, complex bonds between calcium cation and oxygen atom of carbonyl group gradually form, and calcium cations are inserted into the molecular chains of nylon 6, which weaken the hydrogen bonds between the molecular chains of nylon 6 and damage the three-dimensional ordered structure of nylon 6, so the crystallinity of nylon 6 decreases and nylon 6 changes from crystalline to amorphous phase.
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Received: 2002-09-02
Accepted: 2003-01-18
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Corresponding Authors:
CHENG Xu
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Cite this article: |
CHENG Xu,HE Qi-jia,ZHANG Ai-min. Time-resolved FTIR Study of Amorphous Process of Nylon 6 with Calcium Chloride[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2004, 24(03): 295-298.
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URL: |
http://www.gpxygpfx.com/EN/Y2004/V24/I03/295 |
[1] Garcia Dana,Stardweather Howard W. J. Polym. Sci.(Polymer Physics Edition), 1985, 23:537. [2] Brill R. J. Phys. Chem. B, 1942, 53: 61. [3] Bunker V G. J. App. Polym. Sci., 1977,26:234. [4] Bradhury E W, Brown L, Elliot A et al. Polymer, 1965, 6: 465. [5] Holmes D R, Bunn C W, Smith D J. J. Polym. Sci., 1955, 17: 159. [6] Arimoto H, Ishibashi M et al. J. Polym. Sci. A,1965, 3: 317. [7] XIONG Yuan-fan, XIAO Yong(熊远凡,肖 勇). China Plastics(中国塑料),1999,13:11. [8] LIU Li-ming,QIAO Fang,ZHU Xiao-guang et al(刘立敏,乔 放,朱晓光等). Acta Polymerica Sinica(高分子学报),1999,3: 274. [9] LI Qiang,ZHAO Zhu-di, OU Yu-chun et al(李 强,赵竹第,欧玉春等). Acta Polymerica Sinica(高分子学报),1997,2:188. [10] Wyzgoski Michael G, Novak Glen E. J.of Material Sci., 1987, 22:1715. [11] Sun Benhui. Chinese J. of Polymer Sci., 1994, 12:57. [12] Hummel D O. Infrared Spectra of Polymers. New York:Inter-Science,1996. 61. [13] Г M 谢缅诺维奇. Polymer Physical Chemistry Directory(聚合物物理化学手册(第三卷)). Beijing(北京): China Petrified Publishing Company(中国石化出版社),1995. 214. [14] Makiko H, Masatoshi S. Polymer Journal, 1996, 28(2): 139. [15] Pickering W F. Morden Analytic Chemistry. New York:Marcel Dekker, Inc., 1971.
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