COMPARATIVE STUDY OF THE RHEOLOGICAL BEHAVIOR OF SOLUTIONS OF THE CHITIN-GLUCAN COM-PLEX FROM THE FRUIT BODIES OF ARMILLARIA MELLEA IN ACETIC AND HYDROGENIC ACID

chemistry of plant raw material Pub Date : 2023-10-02 DOI:10.14258/jcprm.20230312963

D. Minakov, Dmitriy Viktorovich Chashchilov, Anastasiya Aleksandrovna Minakova, Vadim Ivanovich Markin

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Abstract

The article is devoted to the study of the rheological properties of the chitin-glucan complex (CGC) in aqueous solutions of hydrochloric and acetic acids. The CGC sample was isolated from the fruiting bodies of the Armillaria mellea, biotechnologically obtained from an easily renewable plant material. The flow of solutions of chitin-glucan complex with a concentration of 1, 5, 10% (wt.) in hydrochloric acid and 1, 3, 5% (wt.) in acetic acid was studied by the method of rotational viscometry in the range from 10 s-1 to 1000 s-1 at temperatures from 20°C to 50°C. The values of the rheological coefficients of the Ostwald equation are determined. The phenomena of non-Newtonian viscosity anomalies are established. The high viscosity of solutions may be due to the presence of an internal supramolecular structure in solutions of the chitin-glucan complex. The predominantly pseudoplastic nature of the rheological behavior of the studied solutions is shown. The flow index in this case varies from 0,18 to 0,79 for solutions of the chitin-glucan complex in hydrochloric acid and from 0,01 to 0,47 in solutions of acetic acid with a concentration of 3 to 5% (wt.). The pseudoplastic flow mechanism of such solutions can be explained by the destruction of the internal structure of the solution with an increase in shear loads. The dilatant nature of the flow of CGC solutions in acetic acid at a concentration of 1% (wt.) at a shear rate of 10 to 100 s-1 was also revealed. The flow index in this case ranges from 1,28 to 1,57. The dilatant nature of the flow may be due to the predominance of the processes of formation of a new internal structure in solution over the destruction of the existing structure in solution at a low concentration of the chitin-glucan complex. The influence of temperature on the rheological behavior of solutions is strongly distorted by the influence of other factors.

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对醋酸和氢酸中来自 Mellea 犰狳果实体的甲壳素-葡聚糖复合物溶液流变行为的比较研究

文章主要研究了几丁质-葡聚糖复合物（CGC）在盐酸和醋酸水溶液中的流变特性。几丁质-葡聚糖复合物样品是从一种易于再生的植物材料中通过生物技术获得的Armillaria mellea的子实体中分离出来的。在温度为 20°C 至 50°C 的条件下，通过旋转粘度测量法研究了盐酸中浓度为 1、5、10%（重量）的甲壳素-葡聚糖复合物溶液和醋酸中浓度为 1、3、5%（重量）的甲壳素-葡聚糖复合物溶液在 10 s-1 至 1000 s-1 范围内的流动情况。确定了奥斯特瓦尔德方程的流变系数值。确定了非牛顿粘度异常现象。溶液的高粘度可能是由于甲壳素-葡聚糖复合物溶液中存在内部超分子结构。研究表明，所研究溶液的流变行为主要具有假塑性。在这种情况下，甲壳素-葡聚糖复合物在盐酸溶液中的流动指数从 0.18 到 0.79 不等，而在浓度为 3%到 5%（重量比）的醋酸溶液中的流动指数从 0.01 到 0.47 不等。此类溶液的假塑性流动机制可以用剪切负荷增加导致溶液内部结构破坏来解释。在醋酸中浓度为 1%（重量比）的 CGC 溶液在剪切速率为 10 到 100 s-1 的条件下流动的扩张性质也得到了揭示。在这种情况下，流动指数在 1.28 到 1.57 之间。流动的扩张性可能是由于在低浓度的几丁质-葡聚糖复合物中，溶液中新的内部结构的形成过程比溶液中现有结构的破坏过程更重要。温度对溶液流变行为的影响受到其他因素的强烈扭曲。

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chemistry of plant raw material

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