Effect of Surface Passivation in Spinel Slurry Toward Hydrolysis: Neutron Scattering and Rheological Studies

Aqueous colloidal forming of magnesium aluminate (MgAl2O4) spinel offers much potential for various applications; however, these advantages are generally offset by the basic nature of the powder and its affinity for hydrolysis. Hydrolysis in the presence of water generally imparts surface chemical changes resulting in the degradation of colloidal stability. In the present study, spinel powders were subjected to thermally assisted surface passivation and evaluated for the effectiveness of preventing hydrolysis through quasielastic neutron scattering (QENS) technique and correlated with rheological measurements. In order to evaluate the extent of hydrolysis, spinel slurries prepared with (SP) and without surface passivation (WSP) were studied by rheological and QENS measurements at regular intervals of time. While WSP slurry exhibited a steep enhancement in viscosity from 1.02 to 19.4 Pa · s and fraction of the elastic intensity from 0.20 to 0.38 for 96 and 200 hours, respectively, a negligible change in vi...