热改性和有机改性蒙脱土作为聚丙烯/聚苯乙烯共混物结构形成过程的有效调节剂

Y. Budash, N. Rezanova, V. Plavan, Viktoriia Rezanova
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引用次数: 3

摘要

研究了热改性蒙脱土浓度和有机改性蒙脱土浓度对聚丙烯/聚苯乙烯共混体系结构形成过程的影响。在纳米填充的组合物中,以及在原始材料中,形成了微纤维结构,其尺寸特征取决于添加剂的含量及其改性方法。聚丙烯含量(0.2 ~ 2.0)wt. %(重量比)的黏土在PP/PS共混物中具有增容作用,使微纤维的平均直径减小1.6倍,其按直径分布的均匀性增强,统计指标(标准差、方差、变异系数)降低。热改性粘土的改性效果更高,在共混物中最小含量(0.2 wt. %)时,PP微纤维的尺寸特性得到改善。PS基体中各向异性PP结构的形成和成型孔出口处积累应力的松弛是导致挤出物膨胀系数较高(4.0 ~ 7.7)的主要因素。纺丝过程中纳米填充体系挤出物微观结构的变化取决于共混物的组成和蒙脱土改性方法的不同。随着添加剂含量的增加,微纤维的平均直径从2.2 μm(原始共混物)减小到1.3 ~ 2.0 μm(三组分共混物)。通过引入热改性蒙脱土和有机改性蒙脱土添加剂来调节不相容聚合物共混物的微观结构,将有助于创造具有可控形貌的纳米复合材料,以及具有改进过滤特性的新型细纤维材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermally and organomodified montmorillonite as effective regulators of the structure formation process in polypropylene/polystyrene blends
The influence of the concentration of thermally and organomodified montmorillonite on the processes of structure formation in a blend of polypropylene/polystyrene (PP/PS) was studied. It is established that in nanofilled compositions, as well as in the original, is formed a microfibrillar structure, the dimensional characteristics of which depend on the content of the additive and the method of its modification. The investigated clays by content (0.2–2.0) wt. % by weight of polypropylene have a compatibilizing effect in the blend of PP/PS, which reduces the average diameter of microfibers by 1.6 times and increases the homogeneity of their distribution by diameter: statistical indicators decrease (standard deviation, variance, coefficient of variation). The modifying effect of thermally modified clay is higher—the improvement of the dimensional characteristics of PP microfibers is achieved at its minimum content in the blend (0.2 wt. %). The formation of anisotropic PP structures in the PS matrix and the relaxation of the accumulated stresses at the exit of the molding hole is the main factor that causes high values of the coefficient of swelling of the extrudates (4.0–7.7). The change in the microstructure of the extrudates of nanofilled systems during spinning depends on the composition of the blend and the method of modification of montmorillonite. The average diameters of microfibers decrease from 2.2 μm (in the original blend) to (1.3–2.0) μm (in three-component) depending on the content of additives. The ability to regulate the microstructure of incompatible polymer blends by introducing additives of thermally and organomodified montmorillonite will contribute to the creation of nanocomposites with controlled morphology, as well as new fine-fiber materials with improved filtering characteristics.
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