J.E. Sax scite author profile

This article concerns itself with the prediction of effective diffusion coefficients of small permeants in binary polymer blends of varying degrees of miscibility and microstructural order. Several models have been critically evaluated with the help of previously published experimental data and in terms of consistency of morphological information provided by small permeants serving as morphological probes. Completely random, two‐phase media have been modeled in terms of Effective Medium Theory with the coordination number (z) describing the average morphology. A comprehensive analysis of experimental data has shown a correlation between z and various physical situations. Near the percolation threshold, z attains a maximum value while, above it, z tends to decrease with increasing content of the conductive component. Accurate predictions of effective diffusivity can be made for volume fractions between 0.3 and 0.8 by letting z = 6. Evidence for phase inversion was studied in terms of models with ordered microstructure and transport data.

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Influence of morphology on the transport properties of polystyrene/polybutadiene blends: 2. Modelling results

Shah

Sax

Ottino

1985

Polymer

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Influence of morphology on the transport properties of polystyrene/polybutadiene blends. 1. Experimental studies

Sax

Ottino

1985

Polymer

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Permeabilities of radiation cured materials

Sax¹,

Thalacker²,

Boettcher³

et al. 1988

International Journal of Radiation Applications and Instrumenta

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J.E. Sax

Modeling of transport of small molecules in polymer blends: Application of effective medium theory

Influence of morphology on the transport properties of polystyrene/polybutadiene blends: 2. Modelling results

Influence of morphology on the transport properties of polystyrene/polybutadiene blends. 1. Experimental studies

Permeabilities of radiation cured materials

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