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Nonequilibrium thermodynamic modeling of case II diffusion in glassy polymers

Zhaoqiang Song, Xu Li, Kaijin Wu, Shengqiang Cai

2023Journal of the Mechanics and Physics of Solids8 citationsDOIOpen Access PDF

Abstract

In this article, we formulate a nonequilibrium thermodynamic theory for case II diffusion in a glassy polymer. In the model, we integrate the three-dimensional elasto-visco-plasticity of a glassy polymer, the Flory-Rehner theory for polymer network swelling, and the kinetics law for solvent migration with the concentration-dependent diffusivity. Our theory is given in a general 3D tensorial form, which, therefore, can be used to model case II diffusion in glassy polymers with arbitrary geometries and under different mechano-chemical loading conditions. An intrinsic length determined by the combination of the polymer viscosity and solvent diffusivity arises from the theory, which dictates the size-dependent case II diffusion in glassy polymers. The theory developed in the article may provide important guidance for designing semi-permeable membranes, waterproof coating, and drug-delivery systems, where case II diffusion can commonly occur.

Topics & Concepts

PolymerNon-equilibrium thermodynamicsDiffusionThermal diffusivityMaterials scienceThermodynamicsViscosityComposite materialPhysicsMembrane Separation and Gas TransportIonic liquids properties and applicationsPolymer crystallization and properties
Nonequilibrium thermodynamic modeling of case II diffusion in glassy polymers | Litcius