МОРФОЛОГИЧЕСКИЕ И ТЕРМИЧЕСКИЕ СВОЙСТВА БИОРАЗЛАГАЕМЫХ ПРИВИТЫХ СОПОЛИМЕРОВ LLDPE-G-MA/GEL КОМПОЗИТОВ

Journal of science and innovative development Pub Date : 2023-08-15 DOI:10.36522/2181-9637-2023-4-4

N. F. Normurodov, K. N. Berdinazarov, E. O. Khakberdiev, N. Z. Dusiyorov, N. R. Ashurov

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Abstract

In this work, a biodegradable graft copolymer based on linear low density polyethylene grafted maleic anhydride and gelatin (LLDPE-g-MA/Gel) was formed by reactive mixing of functionalized polyethylene with gelatin to achieve finely dispersed blend morphology. Using a selection of components of the mixture, we’d studied its morphology and thermal properties. It was found that thermal stability (initial temperature) of the composition decreases as the amount of gelatin increases due to degradation of gelatin. In the temperature range of 400-500 ºC, the maximum rate of destruction of the graft copolymer increases significantly with higher gelatin content. Samples having identical composition were selected using a Brabender plastograph and a mechanical mixer; and when taken at different rates, the morphological structure of the samples was determined to depend on their mixing rate. The morphological structure was found to show that increased speed leads to effective reaction of two components and crushing of particles into smaller ones.

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可生物降解接枝共聚物 LLDPE-GMA/ 凝胶复合材料的形态和热性能

在这项工作中，通过将功能化聚乙烯与明胶反应混合，形成了一种基于线性低密度聚乙烯接枝马来酸酐和明胶的可生物降解接枝共聚物(LLDPE-g-MA/Gel)，以实现精细分散的共混形态。通过选择混合物的组分，我们研究了它的形态和热性能。研究发现，随着明胶用量的增加，由于明胶的降解，组成物的热稳定性(初始温度)降低。在400 ~ 500℃温度范围内，随着明胶含量的增加，接枝共聚物的最大破坏速率显著增加。使用Brabender塑形机和机械混合器选择具有相同成分的样品;在不同的混合速率下，样品的形态结构取决于它们的混合速率。形态结构发现，速度的增加导致两组分的有效反应和颗粒破碎成更小的颗粒。

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Journal of science and innovative development

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