Abstract:The thermal analysis was applied to study the impact of K₃AlF₆, LiF and AlF₃ on the liquidus temperature of Na₃AlF₆-K₃AlF₆-AlF₃-LiF-CaF₂-MgF₂-Al₂O₃ electrolyte molten melts, and the influence mechanism of the molten melts composition to the liquidus temperature was also investigated. The results show that the liquidus temperature of Li-containing molten melts decreases with the increase of K₃AlF₆ content, and when the contents of LiF in the melts are 0 and 4% respectively, with the increase of K₃AlF₆ content from 3% to 12%, the liquidus temperature of molten melts decreases by 27.4 ℃ and 21.2 ℃, respectively. LiF has the effect to reduce the liquidus temperature of K-containing molten melts. When K₃AlF₆ content of melts is 0 and 6%, with the increase of LiF content from 0 to 4%, the liquidus temperature of molten melts decreases by 31.2 ℃ and 27 ℃. AlF₃ has the minus effect on the liquidus temperature of Li-K-containing complex molten melts, when the content of LiF in the melts is 1% and K₃AlF₆ content is 9%, the liquidus temperature of melts will decrease 6.3 ℃ with every 1% addition of AlF₃. While, when the melts don’t contain Li and K, the drop of the liquidus temperature with every 1% addition of AlF₃ is 7.6 ℃. Li and K in the complex electrolyte melts exist in the form of Li₂NaAlF₆ and K₂NaAlF₆, respectively, and its content in the melts is one of the main reason affecting the liquidus temperature of the molten melts.

Key words: aluminum electrolysis; complex electrolyte; potassium cryolite; liquidus temperature; lithium salts