The permeability of polymeric mater

The permeability of polymeric materials to gasses is determined by the adsorption rate of gas molecules into the matrix at the atmosphere/polymer boundary and the diffusion rate of adsorbed gas molecules through the matrix .

The adsorption rate is generally dependent on the rate of formation of free volume holes in the polymer created by random (Brownian) or thermal motions of the polymer chains, and diffusion is caused by jumps of molecular gas molecules to neighboring (empty) holes.

Thus the permeability of polymer films is dependant on free volume hole sizes, degree of polymer motion, and specific polymer–polymer and polymer–gas interactions, all of which can be affected by intrinsic polymer chemistry as well as external properties such as temperature and pressure.

Of course, the overall rate of gas diffusion is also directly dependant on the film thickness.

The dispersal of nano-sized fillers into the polymer matrix affects the barrier properties of a homogeneous polymer film in two specific ways.

The first way is by creating a tortuous path for gas diffusion [89]. Because the filler materials are essentially impermeable inorganic crystals, gas molecules must diffuse around them rather than taking a (mean) straight line path that lies perpendicular to the film surface.

The result is a longer mean path for gas diffusion through the film in the presence of fillers, as illustrated in Fig. 2. Essentially, the tortuous path allows the manufacturer to attain larger effective film thicknesses while using smaller amounts of polymer.