Functional properties of food packaging solutions alternative to conventional multilayer systems

Abstract

AbstractThis study aimed to investigate the most important functional properties of multilayer and alternative packaging with improved sustainability specifically used for modified atmosphere (MAP) and chilled food products. A multilayer material with a thickness reduction, mono-PET, paper/PE-EVOH-PE, and a biopolymer for trays, together with a SiOx-coated PET, and a cellulose/PLA-based for lids were analyzed for their optical, tensile, and gas-vapor barrier properties, which were compared to those of conventional trays/lids (PET-EVOH-PE multilayer structures). All the alternative solutions showed good UV-light screening ability, together with high transparency in the visible range, and tensile properties greater than those displayed by conventional configurations. Lid alternative materials exhibited a significantly higher performance in terms of oxygen and water vapor barrier properties as compared to that displayed by conventional counterparts. The tray alternative solutions performed better than the conventional ones against CO2 and O2 permeation, with values lower than the detection limit of the instrument (0.01 cm3 m− 2 day− 1 and 0.25 cm3 m− 2 day− 1 for O2 and CO2, respectively). This study demonstrated the high potential of alternative packaging in replacing the current materials intended for storing highly perishable foods stored under MAP and cold storage.