An experimental test of the scaling prediction for the spatial distribution of water during the drying of colloidal films |
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Authors: | P Ekanayake P J McDonald and J L Keddie |
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Institution: | (1) Department of Physics, University of Peradeniya, 250400 Peradeniya, Sri Lanka;(2) Department of Physics, University of Surrey, Guildford, GU2 7XH, UK |
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Abstract: | A Peclet number, Pe, for the drying of colloidal films can be used as a predictor of the uniformity of water concentration in the direction normal
to the film. Uniform drying is predicted to occur when Pe < 1, whereas with , a layer of packed particles is expected to develop above a more dilute layer. Routh and Zimmerman have more recently proposed
that the particle concentration gradient between the packed and dilute layers, , will scale as . Here, this scaling relation is tested experimentally with magnetic resonance profiling data obtained from waterborne colloidal
films dried under conditions to yield a range of Pe. It is found that increases with Pe but scales as . This disagreement with the prediction can be attributed to an underestimate of Pe when there are greater non-uniformities of drying, because of an unquantified slowing down of the evaporation rate. |
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