A model for diffusion in a glassy polymer

The potential energy clock (PEC) model for glassy polymers derived previously was shown to predict accurately a broad range of responses including temperature-dependent yield in different modes of deformation, enthalpy relaxation, volume recovery, and aging of the yield stress. It was, however, some

In this article, a mathematical model is proposed for predicting solvent self-diffusion coefficients in amorphous glassy polymers based on free volume theory. The basis of this new model involves consideration of the plasticization effects induced by small molecular solvents to correctly estimate th

The development of a new model for the diffusion of gas molecules in glassy polymers is presented which utilizes concepts from free volume theory and relies on a dual-mode interpretation of sorptive dilation in glassy polymers. Three assumptions are made in the development of the model. First, the f

## Abstract The description of the sorption mechanism of gases in glassy in glassy polymers is of importance for membrane‐based gas separation processes as well as for packaging applications. Dual mode theory, postulating a Henry and Langmuir process to occur and leading to an equation with three a