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Moisture absorption measurement and modelling of a cellulose acetate

Shiva Khoshtinat, Valter Carvelli, Claudia Marano

2021Cellulose27 citationsDOIOpen Access PDF

Abstract

Abstract With a view toward the application of highly hygroscopic polymers as a humidity responsive self-actuator, the evaluation of the real time moisture concentration in the material becomes a priority. In this paper, the moisture diffusion process in a cellulose acetate (53.3% of acetylation) has been studied. Membranes of cellulose acetate (thickness within the range 66–200 µm) have been prepared, and the moisture absorption at room temperature and at a different relative humidity (RH within the range 21–53%) has been monitored. An analytical model has been used to describe the observed non-Fickian sigmoidal behavior of moisture diffusion. A relaxation factor (β) of about 0.026 s −1 and a moisture diffusion coefficient (D) of 3.35 × 10 –6 mm 2 /s have been determined. At constant room temperature, the moisture concentration at saturation (C sat ) has shown a linear relation with relative humidity. The identified values β, D and C sat of the analytical model have been used as input for the finite element simulation of the non-Fickian diffusion. The reliability of the finite element simulations has been confirmed with a second set of experiments.

Topics & Concepts

MoistureCellulose acetateRelative humidityDiffusionFick's laws of diffusionMaterials scienceHumidityAnalytical Chemistry (journal)Saturation (graph theory)ThermodynamicsComposite materialCelluloseChemistryChromatographyOrganic chemistryMathematicsPhysicsCombinatoricsDielectric materials and actuatorsAdvanced Materials and MechanicsAdvanced Sensor and Energy Harvesting Materials
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