Permeability of Gases Through Filled and Unfilled Rubber Membranes

Abstract

Permeation experiments were conducted to study the structural differ- ences between synthetic poly-cis 1,4-isoprene (SNR) and natural rubber (NR), as well as differences resulting from filling with carbon black. The study aimed further at testing Frisch's theory of isotope effects in activated diffusion and on the unit size of the free volume in rubbers. The rubber samples consisted of thin crosslinked sheets of NR AND SNR. The carbon content in the filled samples was 16% by volume. The permeation rate of hydrogen and deuterium through filled and un-filled NR and SNR were measured by the time-lag method as a function of temperature and pressure (40-85 C and 1-55 cm of Hg). The permeability coefficient, p, diffusion coefficient, d, and solubility, s, thus deduced were further used to evaluate the energies of activation for permeation and for diffusion, and the heat of solution according to the Arrhenius equation. The results show that hydrogen has generally a higher permeability and diffusivity than deuterium and that the permeabilities or diffusivities are markedly reduced by the presence of the filler.

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 1970

Accession Number

AD0716393

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