| Abstract Scope |
A 51-sample composition variation study was performed on glass-ceramic waste forms for a raffinate waste stream from aqueous reprocessing of used nuclear fuel containing high fractions of Mo, alkalis, alkaline earths (AEs), and rare earths (REs). The study was designed with a single-component-at-a-time variation approach off a centroid composition. The components that were varied included Al, B, Ca, Li, Mo, Na, REs, Si, Zr, and Others (containing minor components). Data analysis included crystallization curves, microstructure, and phase compositions. A number of components (i.e., Li2O, B 2O3, REOx, MoO3, Na2O, and ZrO2) significantly impacted the concentration and chemistry of phases, especially the primary phases of oxyapatite [i.e., Ca2RE8(SiO4)6O2] and powellite (i.e., AEMoO4), precipitated in the slow cool heat-treated waste forms; minor phases included cerianite [i.e., CexZr(1- x)O2], Ba- molybdate [i.e., Ba(Gd0.67Mo0.33)O3], noble metals, pollucite (i.e., CsAlSiO4), and RE- borosilicate (i.e., RE3BSi2O10). |