INTERMOLECULAR AND INTRAMOLECULAR INTERACTIONS OF POLYMER GUAR GUM IN SOLUTIONS

INTERMOLECULAR AND INTRAMOLECULAR INTERACTIONS OF POLYMER GUAR GUM IN SOLUTIONS

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摘要 The tetrahedral borate ion can crosslink with polymer guar gum in aqueous solutions. If the concentration of guar gum is less than 0.045 g/dL, the intramolecular interaction between guar gum and borate ion increases due to the formation of crosslinks. As a result, the polymer chains of guar gum in solution shrink in size and the reduced viscosity of polymer solution decreases accordingly. On the other hand, if the concentration of guar gum is greater than 0.045 g/dL, the intermolecular interaction becomes apparent due to the same reason. The polymer chains, therefore, associate together and the reduced viscosity of polymer solution increases considerably. According to this technique, the critical concentration c^＊, presented by de-Gennes, is determined successfully. The tetrahedral borate ion can crosslink with polymer guar gum in aqueous solutions. If the concentration of guar gum is less than 0.045 g/dL, the intramolecular interaction between guar gum and borate ion increases due to the formation of crosslinks. As a result, the polymer chains of guar gum in solution shrink in size and the reduced viscosity of polymer solution decreases accordingly. On the other hand, if the concentration of guar gum is greater than 0.045 g/dL, the intermolecular interaction becomes apparent due to the same reason. The polymer chains, therefore, associate together and the reduced viscosity of polymer solution increases considerably. According to this technique, the critical concentration c^＊, presented by de-Gennes, is determined successfully.

作者 Yun-fei Yan Hai-yang Yang Wen-yong Liu Ping-ping Zhu Ping-sheng He

机构地区 Department of Polymer Science and Engineering Structure Research Laboratory

出处《Chinese Journal of Polymer Science》 SCIE CAS CSCD 2005年第5期557-559,共3页 高分子科学（英文版）

关键词 Guar gum Crosslink reaction Critical concentration c^＊. Guar gum Crosslink reaction Critical concentration c^＊.

分类号 O631.3 [理学—高分子化学]

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1Dznan, M.F., Marmontov, V.P., Kolesnik, A.A. and Drozdoskya, A.L., Ukrain. Khim. Zhur., 1984, 50:1285.
2Qian, R. and Cao, T., Polym. Commu., 1986, 27:169.
3Pezron, E., Ricard, A., Lafuma, T. and Audebert, R., Macromolecules, 1988, 21:1121.
4Chen, C.Y. and Yu, T., Polymer, 1997, 38:2019.
5Goel, N., Shah, S.N. and Grady, B.P., J. Petroleum Sci. & Eng., 2002, 35:59.
6Robinson, G., Ross-Maphy, S.B. and Morris, E.R., Carbohydr. Res., 1982, 107:17.
7Yang, H., Zhu, P., Ren, F., Li, G. and Wu, P., Bulletin Chem., 1999, 62(5): 47.
8Yang, H., Zhu, P., Peng, C., Ma, S., Zhu, Q. and Fan, C., Eur. Polym. J., 2001, 37:1939.
9Yang, H., Li, H., Zhu, P., Zhu, Q. and Fan, C., Bulletin Chem., 2002, 65(9): 631.
10Yang, H., Wang, M., Zhu, P., Zhang, J. and Zhang, S., Bulletin Chem., 2003, 66(6): 418.

1JIANFang-fang SUNPing-ping XIAOHai-lian ZHAOPu-su.Synthesis, Crystal Structure and Characterization of α-(1-Benzimidazolyl)-hypnone Cobalt(Ⅱ) Complex: [CoCl(C_7H_5N_2CH_2COPh)_4]Br[J].Chemical Research in Chinese Universities,2005,21(4):419-422.
2杨海洋.EFFECT OF ANIONIC SURFACTANT UPON THE VISCOSITY OF POLYMER GUAR GUM SOLUTIONS[J].Chinese Journal of Polymer Science,2006,24(4):437-440.
3张道,郭松山,王汉章,郁开北.Synthesis and Crystal Structure of a Neodymium Ionic Associate [Nd(dmso)_7Cl][Bph_4]_2[J].Journal of Rare Earths,2000,18(2):86-89.
4邹时英,王克,殷勤俭,江波.羟丙基瓜尔胶的制备及表征[J].化学研究与应用,2004,16(1):73-75. 被引量：12
5Hui Bao SHAO,Da Yin LI,Jie Shu TU(Department of Chemistry, Capital Normal University, Beijing, 100037).The Intermolecular Interaction in Self-Assembled Monolayers on Gold Electrode[J].Chinese Chemical Letters,1999,10(2):145-146.
6En Bo WANG ※, Lan Cui ZHANG, Zuo Ping WANG, En Hong SHEN, Su Xia ZHANG Department of Chemistry, Northeast Normal University, Changchun 130024 Rui Yun 2HAN, Ya Yan LIU Chanochun Institute of Applied Chemistry, Academia Sinica, Changchun 130022.SYNTHESES AND SPECTRA OF HETEROPOLY BLUES OF DOUBLE 2:17 MOLYBDOPHOSPHATES LANTHANIDE COMPLEXES[J].Chinese Chemical Letters,1991,2(11):877-880.
7J.H.Trivedi,M.D.Thaker,H.C.Trivedi.Photo-induced Synthesis and Characterization of Poly(methyl methacrylate) Grafted Sodium Salt of Partially Carboxymethylated Guar Gum[J].Chinese Journal of Polymer Science,2014,32(12):1690-1703.
8徐敏,严晓虎,余学海.树状高分子PPI水溶液性质的研究[J].高等学校化学学报,2001,22(4):703-705. 被引量：1
9Yu-Hai Liu,Jia-Jia Shi,Dan-Qing Gao,Yun-Long Gao,Ran Guo,Xiao-Feng Ling,Shi-Fu Weng,Yi-Zhuang Xu,Isao Noda,Jin-Guang Wu.Interactions between pyridinium and Nd^(3+)[J].Chinese Chemical Letters,2015,26(2):182-186.
10杨洁静,张志东.L.Landau-P.G.de Gennes自由能的应用及其展开系数与外场的关系[J].河北工业大学学报,2007,36(2):100-103.

Chinese Journal of Polymer Science

2005年第5期

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INTERMOLECULAR AND INTRAMOLECULAR INTERACTIONS OF POLYMER GUAR GUM IN SOLUTIONS

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