Multiple interval thixotropic test (miTT)-an advanced tool for the rheological characterization of emulsions and other colloidal systems

In the last years, the 3iTT protocol-a dynamic-mechanical test (DMT) at low deformation and constant frequency, followed by a start-up flow (SUF) at constant shear-rate, and a DMT-was developed as an alternative to check for changes in material behavior, which was extended to form the multiple interval thixotropic test protocol (miTT), differing in modifying the shear rates systematically. The results of this test routine are a viscosity function eta((gamma)over dot)) with increasing and decreasing (gamma)over dot) and the dependence of G' and G on (gamma)over dot) (previous test). More importantly, the G' and G are strongly influenced by the previously applied shear rate. While regular emulsions show a decrease of G' and G upon a higher shear rate (gamma)over dot) in the previous shear step, the pickering emulsions with graphene oxide show an increase. In both cases, the change is approximately reversible. The changes in G' and G correlate well with the emulgel composition.

Automated summary

The 3iTT protocol and multiple interval thixotropic test protocol (miTT) are used to monitor changes in material behavior, with G' and G showing sensitivity to shear rate variations. Pickering emulsions with graphene oxide exhibit reversible changes in G' and G.