高分子表面活性剂水溶液的物理化学性质

A. Dyuryagina, A.A. Lutsenkо, T. V. Shirina, D.Yu. Kozik, G. Aubakirova
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摘要

水分散涂料和清漆材料从水性组的快速发展,是由于其与其他油漆和清漆材料相比,从环保的类别的一些优势。它们提供了低温干燥到室温的可能性。目的是建立表面活性剂(表面活性剂)PAN和PES的电导率和解离度。本工作的方法学包括在T = 298 K下,测定不同添加剂含量(C = 0÷4 g/dm3)的新鲜配制和腌制(至少48 h)溶液的比电导率(χ, mSm/cm)和氢指数(pH)。介绍。研究发现,在相当浓度的水中(从0.25到4 g/dm3), PAN的比电导率变化范围(从6.21到16.97 mSm)比PES(从3.48到4.11 mSm)更大。根据实验数据,聚丙烯酸钠是一种在水中解离形成聚丙烯酸酯大阴离子的聚电解质。PAN在稀释溶液(0.25 g / dm3)中的解离度最大,为28%。浓度的增加(从0.25 g/dm3)伴随着α在SPAN = 4 g/dm3时下降到8%的水平。聚硅氧烷共聚物是一种弱于PAN的电解质。其大分子在稀释液(0.25 g/dm3)中的解离度小1.5倍,为19%。在浓度升高区域(СPES = 4 g/dm3), α不超过2%,即比PAN等浓度溶液低4倍。两亲化合物的解离伴随着微酸性官能团的释放,这提供了氢指数的变化。对于双蒸馏水(pH = 5.4),在PAN溶液中pH值逐渐降低至4.26,在PES溶液中pH值为4.64。随着溶液暴露时间的延长,α和pH值的变化是由于水解产物的积累,在PAN和PES等浓度溶液中浸泡48 h后,氢指数分别变化0.1 ~ 0.8和0.1 ~ 0.4。
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PHYSICO-CHEMICAL PROPERTIES OF AQUEOUS SOLUTIONS OF POLYMER SURFACTANTS
The rapid progress of water-dispersion paint and varnish materials from the group of waterborne is due to a number of their advantages in comparison with other paint and varnish materials from the category of environmentally friendly. They provide the possibility of low-temperature drying up to room temperature. The purpose is to establish the electrical conductivity and degree of dissociation of surfactants (surfactants) PAN and PES. The methodology of the work included the determination of the specific electrical conductivity (χ, mSm/cm) and the hydrogen index (pH) in freshly prepared and seasoned (at least 48 h) solutions with different additive contents (C = 0÷4 g/dm3) at T = 298 K. Introduction. It was found that at comparable concentrations in water (from 0.25 to 4 g/dm3), PAN is characterized by a greater range of changes in specific electrical conductivity (from 6.21 to 16.97 mSm) than PES (from 3.48 to 4.11 mSm). According to experimental data, sodium polyacrylate is a polyelectrolyte dissociating in water to form polyacrylate macroanions. The degree of dissociation of PAN in dilute solutions (0.25 g / dm3) is maximum and is 28 %. An increase in concentration (From 0.25 g/dm3) is accompanied by a decrease in α to the level of 8 % at SPAN = 4 g/dm3. Polyethersiloxane copolymer, in turn, is a weaker electrolyte than PAN. The degree of dissociation of its macromolecules in dilute solution (0.25 g/dm3) is 1.5 times less and is 19%). In the region of elevated concentrations (СPES = 4 g/dm3), α does not exceed 2 %, that is, 4 times lower than in the isoconcentration solution of PAN. Dissociation of amphiphilic compounds is accompanied by the release of slightly acidic functional groups, which provides a shift in the hydrogen index. With respect to bidistilled water (pH = 5.4), pH gradually decreases to a minimum level of 4.26 in PAN solutions and 4.64 in PES solutions. As the duration of the exposure of the solution increases, the change in α and pH is due to the accumulation of hydrolysis products, after 48 hours in the isoconcentration solutions of PAN and PES, the values of the hydrogen index changed by 0.1-0.8 and 0.1-0.4, respectively.
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