Development of Carboxymethyl Cellulose (CMC)-Based Bio-composites as a Functional Substitute for Single-Use Plastics for Active Food Packaging Applications
Anokye, R.; Boadu, K. B.; Boateng, K. O.
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The production of petroleum-based plastics used for packaging has led to significant environmental challenges in both aquatic and terrestrial ecosystems. Consequently, there is a growing need to explore viable alternatives to the usage of these conventional plastics. This study investigates the utilization of cellulose powder for producing of biodegradable plastics as a more sustainable substitute for petroleum-based materials. Bioplastic films were formulated with varying glycerol contents ranging from 0.5ml - 2.0ml. The glycerol served as a plasticizer to improve the mechanical properties of the films, which were subsequently subjected to biodegradability and tensile strength tests. Biodegradability was evaluated through soil burial tests, which revealed that higher glycerol concentrations accelerated rate of weight loss, with the 2.0 ml formulation exhibiting the fastest degradation rate. Tensile strength increased with glycerol content up to 1.5 ml, where a maximum strength of 7.23 N/mm2 was recorded, but declined at 2.0 ml. The findings indicate that a glycerol concentration of 1.5 ml yields the most optimal bioplastic formulation for short-term packaging applications.
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