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The carbonate solution-dissolved rare earth showed some metastable chemical characteristics. In this paper, the systematic investigation of metastable dissolution regularity of Nd 3+ in Na 2 CO 3 solution was carried out. The results showed that Nd 3+ has an instantaneous saturated solubility in Na 2 CO 3 solution. When the amount of the dissolution Nd 3+ did not reach the instantaneous saturated solubility, the solution was in a stable-state period. Once the concentration of Nd 3+ exceeded the instantaneous saturated solubility, the solution was no longer in the metastable state and generated the neodymium double salt of carbonate precipitates rapidly. The molecular dynamics simulation of the solution in the metastable state was carried out. In high concentration Na 2 CO 3 solution, dissolved Nd 3+ had a coordination reaction with the CO 3  2- . Also, there was a stronger interaction between Na + and CO 3  2- , which caused the effective concentration of free CO 3  2- which could react with Nd 3+ to become lower. Thus, these reasons make the solution exhibit a metastable state. In that metastable period, the dissolved Nd 3+ becomes steady and hard to generate the neodymium double salt of carbonate precipitates.

Metastable Dissolution Regularity of Nd3+in Na2CO3Solution and Mechanism

Metastable Dissolution Regularity of Nd³⁺in Na₂CO₃Solution and Mechanism