Research of Rheological Properties of Components of the Developed Milk-Containing Thermostable Fillings

O. Koshel, F. Pertsevoy, S. Sabadash, M. Mashkin, V. Mohutova, Vadym Volokh
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Abstract

The research is devoted to the determination of the properties of the components of the developed milk-containing thermostable fillings and the establishment of the dependence of the effective viscosity on the temperature of the model system. In the work, studies are carried out for a model system containing xanthan gum; a model system containing tara gum; model system containing gelatin; a model system containing xanthan gum and tara gum; a model system containing xanthan gum, tara gum and gelatin; a model system containing xanthan gum, tara gum and sugar; model system containing xanthan gum, tara gum, skimmed milk powder; a model system containing xanthan gum, tara gum and maltodextrin. In this work, the dependence of the effective viscosity on the temperature of the model system is established. To achieve the aim, the following objectives are set: - determination of the dependence of the effective viscosity on the temperature of model systems with xanthan gum, tara gum, gelatin, sugar, skimmed milk powder and maltodextrin with different concentrations of these components; - establishment of the temperature range in which a sharp increase in the effective viscosity of the investigated model systems begins. An increase in the temperature of the system prevents gelation due to an increase in the intensity of Brownian motion and a decrease through it in the duration of the existence of bonds that arise between macromolecules. At the same time, a decrease in temperature promotes gelation, since this increases the number of contacts between macromolecules, which contributes to an increase in the strength of the so-called spatial network. In the article, the dependences of the effective viscosity on the temperature of model systems with xanthan gum, tara gum, gelatin, sugar, skimmed milk powder and maltodextrin with different concentrations of these components are obtained. Based on the obtained dependences, the established temperature ranges in which a sharp increase in the effective viscosity of the studied model systems begins
研制的含乳耐热填料组分流变特性研究
研究了研制的含乳热稳定填料的组分性质,建立了有效粘度对模型系统温度的依赖关系。在工作中,对含有黄原胶的模型系统进行了研究;含有塔拉胶的模型系统;含明胶的模型体系;含有黄原胶和度母胶的模型体系;含有黄原胶、塔拉胶和明胶的模型体系;含有黄原胶、度母胶和糖的模型体系;模型体系含有黄原胶、塔拉胶、脱脂奶粉;含有黄原胶、塔拉胶和麦芽糖糊精的模型体系。在这项工作中,建立了有效粘度对模型系统温度的依赖关系。为了实现这一目标,设定了以下目标:-测定黄原胶、塔拉胶、明胶、糖、脱脂奶粉和麦芽糖糊精具有不同浓度这些成分的模型体系的有效粘度对温度的依赖性;-建立所研究的模型系统的有效粘度开始急剧增加的温度范围。由于布朗运动强度的增加和大分子之间产生的键存在的持续时间的减少,系统温度的增加阻止了凝胶化。与此同时,温度的降低促进了凝胶化,因为这增加了大分子之间的接触数量,这有助于增加所谓的空间网络的强度。本文研究了黄原胶、塔拉胶、明胶、糖、脱脂奶粉和麦芽糖糊精在不同浓度下对模型体系的有效粘度随温度的变化规律。根据所获得的依赖关系,确定了所研究模型系统的有效粘度开始急剧增加的温度范围
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