Mechanical behavior of temperature-sensitive gels under equilibrium and transient swelling

Water uptake by a thermo-responsive gel is strongly affected by temperature: the gel swells below its volume phase transition temperature Tc and shrinks above Tc. Observations reveal two types of equilibrium swelling diagrams: discontinuous (with degree of swelling Q falling abruptly at Tc) and continuous (with Q decreasing smoothly with temperature). A constitutive model is developed for the mechanical behavior of a temperature-sensitive gel subjected to swelling that accounts for changes in its structure (phase separation) at Tc. Adjustable parameters are found by fitting experimental data in equilibrium swelling tests, transient deswelling-reswelling tests, and tensile-compressive tests on poly(N, N-diethylacrylamide) gel with a continuous equilibrium swelling curve and poly(N−n-propylacrylamide) gel with a discontinuous diagram. Numerical simulation demonstrates qualitatively different responses of gels with discontinuous and continuous swelling diagrams.