得到了含甲基丙烯酸酯和组成中所含的所有烯丙基和烯丙基的热力学参数

M. Abdukakhkharova, A. Ismailov, U. Mirzaev, R. Ismailov
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引用次数: 0

摘要

本文讨论了在不包括引发剂本身热分解的温度下,用电子受体-聚合引发剂制备含有甲基丙烯酸酯和烷基的低分子量化合物的氨基烷基丙烯酸酯衍生物的复合自由基聚合的最终产物的一些热力学参数的制备。通过图解求解bbrownneshe - hildebrand方程,确定了络合反应的平衡常数和络合物的摩尔消光系数,求出了络合物的生成热、熵、吉布斯能,确定了低分子量和高分子量物质的元素组成。从研究中可以看出,配合物的摩尔消光系数实际上与温度无关,即使在较窄的温度范围内(283 ~ 293 K),络合反应的平衡常数也随着温度的升高而增大。对合成的单体盐和聚合物盐的结构和组成进行了分析,并通过红外光谱和元素组成分析证实,所得的光谱数据表明,合成的聚合物的单元在组成和结构上与单体季铵盐相对应,并且聚合物中的烯丙基键被保留下来。从研究中可以看出,随着单体和引发剂浓度的增加,反应速率自然增大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
OBTAINING SOME THERMOD AINING SOME THERMODYNAMIC PARAMETERS CONTAINING ME AINING METACRYLATE AND ALL TE AND ALLYL GROUPS CON YL GROUPS CONTAINING IN COMPOSITION
The article discusses the preparation of some thermodynamic parameters characterizing the final product of complex radical polymerization of amino alkyl acrylate derivatives containing both methacrylate and alkyl groups of low molecular weight compounds with electron acceptors - polymerization initiators at temperatures that exclude thermal decomposition of the initiators themselves. The equilibrium constant of the complication reaction and the molar extinction coefficient of the complex were determined by graphically solving the Bеneshe-Hildebrand equation, the heats of complex formation, entropy, Gibbs energy were found, and the elemental composition of low molecular weight and high molecular weight substances was determined. As can be seen from the studies, the molar extinction coefficient of the complex practically does not depend on temperature, and the equilibrium constant of the complexation reaction even in a narrow temperature range (283–293 K) increases with increasing temperature. The structure and composition of the synthesized monomeric and polymer salt were also considered in the work, and confirmed by IR-spectroscopy and analysis of elemental composition, the obtained spectroscopic data showed that the unit of the formed polymer corresponds in composition and structure to the monomeric quaternary salt, and the allyl bond in the polymers is preserved. It can be seen from the studies that, with an increase in the concentration of both the monomer and the initiator, the reaction rate naturally increases.
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