Abstract:Al-Li master alloys were prepared using sinking-mode aluminum liquid as cathode and a mixture of LiCl-LiF-Li2CO3 as molten salt electrolyte in a laboratory cell. The electrolysis process with Li2CO3 as raw material instead of LiCl was studied in detail. The technological parameters such as back electromotive force, cell voltage, current and electrolysis waveform were measured by testing device of molten salt electrolysis. The period of Li2CO3 feeding was adjusted by the method of electric potential control. At the same time, the factor that affects current efficiency was discussed according to the lithium content of alloys obtained. The results indicate that back electromotive force increases with increasing current density and decreases by 0.5 V after adding 2% Li2CO3, the feeding period is 15 min measured by the method of electric potential control. Finally, the Al-Li alloy with the lithium content of 7.93%(mass fraction) can be obtained by electrolyzing for 3 h at the current density of 0.62 A/cm2 and at 680 ℃, and the current efficiency can reach 74.1%.

Key words: Al-Li alloy; molten salt electrolysis; back electromotive force; current density