Abstract:As the precursor for production of aluminum, aluminum trihydroxide has four polymorphs and the control of polymorphism of crystal product is vital for downstream operation and product quality. The effects of temperature and caustic concentration on the initial crystalline product and polymorphism transformation were investigated during spontaneous decomposition of supersaturated potassium aluminate solution. The results show that the initial crystalline product under relatively lower temperature (30 ℃, 40 ℃) is bayerite and that under relatively higher temperature (60 ℃, 80 ℃) is a mixture of gibbsite and bayerite. The influence of alkaline concentration on the initial products is not significant. By comparison between the saturation concentration of the polymorphs and the solution concentration, it is concluded that the formation of bayerite is kinetically favored according to a predominance of the initial crystalline products under low temperature. The dissolution of bayerite was detected by SEM, which infers that the transformation of bayerite to gibbsite is attributed to the solvent-mediated polymorphic transformation (SMPT) process. The polymorphic transformation is promoted with the increase of temperature and caustic concentration, which further indicates a dissolution-recrystallization process.

Key words: potassium aluminate; crystallization; bayerite; polymorphic transition; gibbsite