9 Diffusion in glassy and semicrystalline polymers

Abstract: Wide attention has been paid in recent years to diffusion through polymeric materials for its interesting applications in various technological fields [91Vie]. Examples are permselective membranes for separation of gases, vapors and liquids, food packing, protective coatings and controlled drug delivery systems. Moreover, diffusion studies have provided valuable information on the structure of polymers and timedependent changes in the glassy state. Particularly gas molecules were often used as structure-sensit… Show more

“…Using these values and the value of l = 0.5 nm, one obtains activation energies E between 0.1 and 0.3 eV depending on the diameter of the gas molecule. These values are in the range of experimental values ( E = 0.1−0.5 eV) reported for glassy polymers . Details of the fits are given in ref .…”

“…The logarithmic deviation between two diffusion coefficients can be defined as For the diffusion coefficients in Figure the difference in the activation energy between the data taken from ref and the present one is Δ E ≈ 50 meV. This is of the order of 10% of measured activation energies . This difference can be explained by differences in the polymer structures.…”

“…The parameters resulting from a fit to the log D vs 1/ V h data in Figure by means of the classical free volume relation, given in eq 2, are shown in Table . The D 0 values are of the order of those from Arrhenius plots of log D against 1/ T . Substituting eq 8 into eq 6 yields In this equation the only free parameters are and l .…”

“…In membrane applications, however, polymers with high permeability and high selectivity are needed. This has stimulated many investigations during the past decades. − Free volume has proven to have a strong influence in diffusion and permeation properties. − …”

“…This has stimulated many investigations during the past decades. [2][3][4][5][6][7][8][9][10] Free volume has proven to have a strong influence in diffusion and permeation properties. [11][12][13][14][15][16] The present paper is concerned with the correlation between free volume and transport properties.…”

Free Volume and Transport Properties in Highly Selective Polymer Membranes

“…Using these values and the value of l = 0.5 nm, one obtains activation energies E between 0.1 and 0.3 eV depending on the diameter of the gas molecule. These values are in the range of experimental values ( E = 0.1−0.5 eV) reported for glassy polymers . Details of the fits are given in ref .…”

“…The logarithmic deviation between two diffusion coefficients can be defined as For the diffusion coefficients in Figure the difference in the activation energy between the data taken from ref and the present one is Δ E ≈ 50 meV. This is of the order of 10% of measured activation energies . This difference can be explained by differences in the polymer structures.…”

“…The parameters resulting from a fit to the log D vs 1/ V h data in Figure by means of the classical free volume relation, given in eq 2, are shown in Table . The D 0 values are of the order of those from Arrhenius plots of log D against 1/ T . Substituting eq 8 into eq 6 yields In this equation the only free parameters are and l .…”

“…In membrane applications, however, polymers with high permeability and high selectivity are needed. This has stimulated many investigations during the past decades. − Free volume has proven to have a strong influence in diffusion and permeation properties. − …”

“…This has stimulated many investigations during the past decades. [2][3][4][5][6][7][8][9][10] Free volume has proven to have a strong influence in diffusion and permeation properties. [11][12][13][14][15][16] The present paper is concerned with the correlation between free volume and transport properties.…”

Free Volume and Transport Properties in Highly Selective Polymer Membranes