Abstract
In this study, a one-step rapid heating novel process was used to prepare high-purity anhydrous scandium chloride molten salt with low-purity scandium oxide. High-purity anhydrous ScCl3 molten salt was used as the Sc-bearing raw material for preparing the Sc-bearing master alloy. Inert gas was used to enhance the purity of anhydrous scandium chloride and reduce the hydrolysis rate of scandium. The results show that high-purity scandium chloride (purity, 99.69%) with the scandium content of 29.61%, was obtained, and the hydrolysis rate of scandium was 1.19% under the conditions used: removing ammonium chloride; residual crystal water temperature of 400 °C; m(Sc2O3):m(NH4Cl) = 1:2.5; holding-time of 90 min; heating-rate of 12 °C/min; and argon flow of 7.5 L/min. XRD, SEM, and EPMA analyses further verified that anhydrous scandium chloride crystallization condition was relatively good and the purity of high-purity anhydrous scandium chloride approached the theory purity of anhydrous scandium chloride.
Highlights
IntroductionAlong with yttrium and lanthanide, scandium belongs to the rare earth family
Scandium (Sc)—atomic number 21—lies in the periodic table of the fourth cycle III subgroup.Along with yttrium and lanthanide, scandium belongs to the rare earth family
Temperature is one of the key factors affecting the rate of scandium hydrolysis
Summary
Along with yttrium and lanthanide, scandium belongs to the rare earth family. It has a particularity of mineralization with titanium, vanadium and iron that is not common with other rare earth elements. The specific minerals of scandium are very rare. There are only small economic reserves of Sc-bearing minerals including only thortveitite (Sc,Y) Si2 O7 , scandium phosphite. ScPO4 ·2H2 O, bazzite Be3 (Sc,Al) Si6 O18 , titanium silicate mineral Sc(Nb,Ti,Si) O5 and befanamite (Sc,Zr) Si2 O7 , etc. Scandium mostly occurs in ilmenite, zircon, bauxite, rare earth ore, ilmenite, V–Ti magnetite, tungsten ore, tin ore, uranium ore, coal and other minerals.
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