The sorption properties of the solvents benzene, toluene, and xylene in polyethylene films at 40, 60, and 80 degrees C were investigated. The diffusion coefficient increased with an increase in the sorption temperature for the solvents and was highest for xylene and least for benzene. The inability of xylene to show a definite order of the diffusion coefficients at the investigated temperatures was attributed to the presence of two methyl side groups in the molecule. The solubilities of the solvents in polyethylene increased with an increase in the sorption temperature, and the following order of the solubilities could be observed: xylene > toluene > benzene. The permeabilities of the solvents in polyethylene depended on the sorption temperature, and the following order of the permeabilities was observed: xylene > toluene > benzene. The calculated activation energies of sorption in polyethylene films were all positive; benzene had the highest energy of sorption, and xylene had the lowest. The calculated enthalpies of sorption (Delta H-S) were also positive for the three solvents and were in the following order: xylene > toluene > benzene. The calculated entropies of sorption (AS) were negative for the solvents and showed trends similar to the variation of Delta H-S among the solvents. The change in the Gibbs free energies of sorption (Delta G(s)), evaluated with the expression Delta G(s) = Delta H-s - T Delta S (where T is the Kelvin temperature), were all positive, and this was an indication of the nonspontaneity of the solubility of polyethylene in the aromatic solvents at 313 K. (9 2007 Wiley Periodicals, Inc.