Gas permeability studies on poly(vinyl chloride) based polymer blends intended for medical applications

Plasticized PVC finds applications in a wide range of medical products. However, plasticizer leaching, known to take place from these conventional materials, is not desirable. A number of approaches to overcome this problem are mentioned in the literature. We suggest pursuing the polyblend approach. Plasticized PVC containing different amounts of plasticizer, binary polyblends of plasticized PVC (PPVC) with acrylonitrile–butadiene rubber (NBR1), and compounded graft polymer of vinyl chloride and ethylene–vinyl acetate copolymer (EVAPVC), and ternary blends of PPVC, NBR1, and EVAPVC, were formulated. In this article, we report our results of studies on water vapor, O 2 , CO 2 , and N 2 permeabilities. Increased plasticization for PVC was found to increase permeability for water vapor, O 2 , CO 2 , and N 2 . Rise in temperature increased the permeability for water vapor and the change became faster as the materials crossed the region of T g . A simple model suggested for permeability worked satisfactorily. The binary and ternary blends, based on PPVC, had lower O 2 , CO 2 , and N 2 permeability. This improvement in property is of great practical significance and interest and the results indicate that PVC‐based polyblends can be investigated further for potential applications in medicine