Use of Different Proteins to Produce Biodegradable Films and Blends

Abstract

The objective of this study was to develop, characterize and evaluate biodegradable films produced from different proteins and their blends. The proteins of hake (Cynoscion guatacupa), obtained by the process of pH variation, as well as gluten and zein proteins were used in this study. The hake protein films (HF) showed the highest tensile strength (TS) and solubility in water, while the gluten films (GF) presented the higher elongation at break comparing to the others. The blend (BL) produced with hake and gluten (BL H/G) showed higher TS, water vapor permeability and elongation (WVP), and lower water solubility than HF. BL H/G still showing good thermal properties and its biodegradability occurred in less than 10 days. The zein film presented more crystalline zones and less mechanical properties when compared to the others. The zein blends with gluten (BL Z/G) presented higher elongation and WVP, and lower solubility when compared to ZF. These changes indicate that the BL Z/G may be an alternative to improve the properties of individual zein films. The BL Z/G showed complete biodegradability in less than 40 days, while the zein films showed about 75% degraded in 60 days. The BL H/G presented good mechanical and thermal resistance, with ΔH superior to the other films, also showed complete biodegradability in less than 10 days, proving to be the most promising blend for the development of sustainable materials for food packaging.