| Abstract: | Waste aluminate rare earth phosphor is an important rare earth elements(REEs) secondary resource,which mainly consists of BaMgAl_(10)O_(17):Eu~(2+)(BAM) and CeMgAl_(11)O_(19):Tb~(3+)(CMAT). Alkaline fusion process is widely used to recycle REEs from aluminate phosphor, but the related theory remains imperfect. In this paper,a series of alkaline fusion experiments of CMAT were performed to describe the phase change law of CMAT reactions.Based on comprehensive analysis, cation-oxoanion synergies theory(COST) was proposed to explain the aluminate phosphor structure damage. On the mirror plane of aluminate phosphor crystal structure, alkali metal cations(Na~+, K~+) would substitute rare earth ions, while free oxoanion(OH~-,CO_3~(2-),O_2~(2-)) can combine with rare earth ions. These two ionic forces ensure that rare earth ions can be substituted by cations. Then, the structure is decomposed. Morphological analysis shows that observable expression of COST can be described by shrinking core model after simplification. Reaction rate constant calculated indicates that the reaction degree is nanometers per second. COST provides a more complete mechanism, and it can help improve rare earth recycling technology furtherly. |
