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Biodegradable Gloves for Waste Management Post-COVID-19 Outbreak: A Shelf-Life Prediction

Mohd Fikri Ab Rahman, Arjulizan Rusli, M.A. Misman, Azura A. Rashid

2020ACS Omega26 citationsDOIOpen Access PDF

Abstract

With increased awareness on the importance of gloves arising from the COVID-19 pandemic, people are expected to continue using them even after the pandemic recedes. This scenario in a way increased the rubber solid waste disposal problem; therefore, the production of biodegradable gloves may be an option to overcome this problem. However, the need to study the shelf life of biodegradable gloves is crucial before commercialization. There are well-established models to address the failure properties of gloves as stated in the American Society for Testing and Material (ASTM) D7160. In this study, polysaccharide-based material-filled natural rubber latex (PFNRL) gloves, which are biodegradable gloves, were subjected to an accelerated aging process at different temperatures of 50-80 °C for 1-120 days. Prediction models based on Arrhenius and shift factors were used to estimate the shelf life of the PFNRL gloves. Based on the results obtained, the estimated time for the PFNRL gloves to retain 75% of their tensile strength at shelf temperature (30 °C) based on Arrhenius and shift factor models was 2.8 years. Verification on the activation energy based on the shift factor model indicated that the shelf life of PFNRL gloves is 2.9 years, which is only a 3.6% difference. The value obtained is aligned with the requirement in accordance with ASTM D7160, which states that only up to a maximum of 3 years' shelf life is allowed for the gloves under accelerated aging conditions.

Topics & Concepts

Shelf lifeNatural rubberCoronavirus disease 2019 (COVID-19)Arrhenius equationCommercial off-the-shelfWaste managementEnvironmental scienceForensic engineeringEngineeringMaterials scienceComposite materialMedicineComputer scienceMechanical engineeringActivation energyChemistryPathologySoftwareInfectious disease (medical specialty)Organic chemistryDiseaseProgramming languageNatural Fiber Reinforced CompositesPolymer Nanocomposites and Properties
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