Independent characterization of the elastic and the mixing parts of hydrogel osmotic pressure

Abstract

Osmotic pressure is the driving force for the swelling of hydrogels. The hydrogel osmotic pressure can be decomposed into two parts: the mixing part due to polymer-solvent interaction and the elastic part due to polymer chain stretching. While the two components are distinguished in existing constitutive models, they have not been independently characterized in experiments. This paper reports a novel method to independently measure these two components using a fully constrained swelling test. The test allows the crosslink density to be varied at a fixed polymer content, thus varying the elastic part independently of the mixing part. Our measurement shows that the widely used Flory-Rehner model predicts the mixing part accurately for polyacrylamide hydrogel of a wide range of swelling ratios but predicts the elastic part with orders-of-magnitude error.