A model system for the investigation of rare earth collector interaction.

A model system was used to investigate the interaction between carbonate mineral and octanohydroxamate collector. Bastnaesite (Ce) is the most important rare earth mineral that has been the dominant rare earth source since the 1960s. In this study, a synthetic cerium carbonate thin film on a calcite (the most common gangue mineral occurring with rare earth minerals) substrate was formed for a surface interaction investigation. The cerium carbonate thin film system was characterised using Raman spectroscopy, atomic force microscopy and magnetic atomic force microscopy. An adsorption study between the model compound and hydroxamate was also conducted. The study established the utility of using atomic force microscopy and magnetic atomic force microscopy to investigate the mineral surface interaction. Weak adsorption on the thin film surface was observed after 5 hours and 24 hours of conditioning and the hydroxamate adsorption became evident after 72 hours of conditioning. The adsorption studies for cerium carbonate and calcite also demonstrated that hydroxamate is selective for bastnaesite over Ca. (Authors.)
A model system was used to investigate the interaction between carbonate mineral and octanohydroxamate collector. Bastnaesite (Ce) is the most important rare earth mineral that has been the dominant rare earth source since the 1960s. In this study, a synthetic cerium carbonate thin film on a calcite (the most common gangue mineral occurring with rare earth minerals) substrate was formed for a surface interaction investigation. The cerium carbonate thin film system was characterised using Raman spectroscopy, atomic force microscopy and magnetic atomic force microscopy. An adsorption study between the model compound and hydroxamate was also conducted. The study established the utility of using atomic force microscopy and magnetic atomic force microscopy to investigate the mineral surface interaction. Weak adsorption on the thin film surface was observed after 5 hours and 24 hours of conditioning and the hydroxamate adsorption became evident after 72 hours of conditioning. The adsorption studies for cerium carbonate and calcite also demonstrated that hydroxamate is selective for bastnaesite over Ca. (Authors.)