Research of the Rheological Properties of Water Variances of Polysaccharides

MatSciRN: Computational Studies of Inorganic & Organic Materials (Topic) Pub Date : 2021-04-30 DOI:10.15587/2706-5448.2021.230077

O. Tochkova, Inna Gagan, Oksana Мelnyk

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Abstract

The object of research is aqueous dispersions of polysaccharides. One of the most problematic factors is the insufficient study and study of the physicochemical properties of polysaccharides, in particular starch. Among natural polysaccharides, starch occupies a unique position. It has a wide range of applications across many industries and technologies. This is what determines a large number of studies of the state of starch of various botanical origin under the action of various factors that have appeared in the literature recently. Natural polysaccharides, in contrast to synthetic ones, are characterized by a partial ordered structure, formed in the process of synthesis and growth. In the course of the study, a new method of relaxation in starch mixtures was proposed. It was found that structural relaxation in time is slow and long. It was also found that the physicochemical characteristic of polysaccharides, relaxation, is explained by a partially ordered structure with the mutual arrangement of individual chains in a spatial network. It was shown that, under the action of shear stresses, the retest destroys the pseudoplastic liquid structures of aqueous dispersions of starch, followed by restoration to an equilibrium state within 17 hours. The process of recovery or structural relaxation of the spatial structures of aqueous dispersions of polysaccharides occurs due to the rearrangement of the spatial network of the polymer and is formed due to the existence of cross-linked chemical bonds. Thanks to this method of using polysaccharides, it is possible to obtain improved organoleptic, structural, mechanical and physicochemical characteristics of food products. Compared to similar thickeners (pectin, flour), native potato and corn starches provide and provide structural form to products such as sauces, puddings, pastries, minced meat, fish products, and low fat dairy products. In the food system, the role of polysaccharides is to stabilize structure and interact with other components to deliver or maintain nutrients and taste.

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多糖在水中流变特性的研究

研究的对象是多糖的水分散体。其中一个最成问题的因素是对多糖，特别是淀粉的理化性质的研究不足。在天然多糖中，淀粉占有独特的地位。它在许多行业和技术中具有广泛的应用。这决定了最近文献中出现的大量关于各种植物源淀粉在各种因素作用下的状态的研究。天然多糖与合成多糖相比，具有部分有序结构，是在合成和生长过程中形成的。在研究过程中，提出了一种新的淀粉混合物弛豫方法。发现结构弛豫在时间上是缓慢而漫长的。研究还发现，多糖的物理化学特性，松弛，可以用一个部分有序的结构来解释，即单个链在空间网络中相互排列。结果表明，在剪切应力的作用下，重测破坏了淀粉水分散体的假塑性液体结构，并在17小时内恢复到平衡状态。多糖水分散体的空间结构的恢复或结构松弛过程是由于聚合物空间网络的重排而发生的，并且是由于交联化学键的存在而形成的。由于这种使用多糖的方法，有可能获得改善的食品的感官、结构、机械和物理化学特性。与类似的增稠剂(果胶、面粉)相比，本地马铃薯和玉米淀粉为酱汁、布丁、糕点、肉末、鱼制品和低脂乳制品等产品提供了结构形式。在食物系统中，多糖的作用是稳定结构，并与其他成分相互作用，以传递或维持营养和味道。

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MatSciRN: Computational Studies of Inorganic & Organic Materials (Topic)

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