Abstract

Nowadays in the food and nutrition industry special attention is paid to the creation of non-toxic, easily recy-clable packaging materials of a new assortment, capable of providing reliable protection of products from harmful factors. The object of the study was biodegradable film compositions based on fish gelatin and agar, with the addition of plasticizing agent - glycerol. Experimental and analytical studies were carried out using standard and original methods. Modeling of the process of thermal treatment of film compositions was carried out, the experimental dependence of moisture absorption of films on temperature (range 120-160 °C) and duration of the thermal modification process (10-30 minutes) was established. The possibility of thermal modification of biodegradable film compositions was determined. The rational mode of thermal treatment of films is the temperature interval of 140 °C for 20 minutes, which allows to keep the moisture absorption index at the maximum level (842%), exceeding the initial index by 8.4 times, during 120 hours. The established parameters of thermal structuring allow to keep organoleptic quality indicators of films at a high level and to obtain a homogeneous, porous and elastic film. Thermally modified films at temperatures of 140 and 160 °C are characterized by increased dissolution time up to 40 and 70 minutes respectively at dissolution temperature of 60 °C and up to 15 and 30 minutes respectively at dissolution temperature of 75 °C. It is shown that thermal modification of biodegradable films will contribute to compliance with safety requirements, environmental friendliness, absence of toxicity. Thermal modification allows to increase functional and technological properties of composite biodegradable films, which can be used to create a wide range of modern packaging barrier materials.

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