Method for preparing metallic titanium using titanium-containing oxide slag

What is claimed is: 1 . A method for preparing metallic titanium using titanium-containing oxide slag, comprising the following steps: step 1, performing reduction smelting on titanium-containing oxide slag, low-purity silicon and slagging fluxes together at a temperature of 1773 K under an inert atmosphere for more than 4 hours, and performing slag-metal separation to obtain a bulk Si—Ti intermediate alloy and a residual slag; and controlling a mass ratio of the titanium-containing oxide slag to the low-purity silicon during the reduction smelting, so that main phases in the obtained bulk Si—Ti intermediate alloy are titanium-silicon intermetallic compounds TiSix, 0<x≤2; step 2, crushing the bulk Si—Ti intermediate alloy obtained in the step 1 into Si—Ti intermediate alloy particles with a particle size less than 4 mm; and step 3, using the Si—Ti intermediate alloy particles obtained in the step 2 as an anode, metallic molybdenum or metallic nickel as a cathode, metallic titanium as a reference electrode, and NaCl—KCl—NaF as a molten salt, adding Na 3 TiF 6 or K 3 TiF 6 to the molten salt for controlling a valence state of titanium to +3 during molten salt electrolysis, and performing molten salt electrolysis under a high-purity argon atmosphere at a temperature of 973 K, under this experimental condition, Ti in the Si—Ti intermediate alloy particles dissolved at the anode and deposited at the cathode, while Si in the Si—Ti intermediate alloy particles fell off from the anode as metallic silicon powder. 2 . The method for preparing metallic titanium using titanium-containing oxide slag according to claim 1 , wherein the titanium-containing oxide slag in the step 1 is oxide slag or scrap containing TiO 2 , comprising titanium-containing blast furnace slag or a spent SCR catalyst. 3 . The method for preparing metallic titanium using titanium-containing oxide slag according to claim 1 , wherein the low-purity silicon in the step 1 is a silicon material with metallic silicon as a main component, comprising a silicon alloy, industrial silicon or diamond wire saw silicon powder (Si sludge) generated from the photovoltaic industry. 4 . The method for preparing metallic titanium using titanium-containing oxide slag according to claim 1 , wherein the slagging fluxes in the step 1 is a mixture of one or more of CaO, SiO 2 , MgO and Al 2 O 3 in a suitable proportion. 5 . The method for preparing metallic titanium using titanium-containing oxide slag according to claim 1 , wherein a ratio of NaCl, KCl and NaF in the NaCl—KCl—NaF molten salt in the step 3 is not limited. 6 . The method for preparing metallic titanium using titanium-containing oxide slag according to claim 5 , wherein a molar ratio of NaCl:KCl:NaF in the NaCl—KCl—NaF molten salt is 50.6:49.4:5. 7 . The method for preparing metallic titanium using titanium-containing oxide slag according to claim 1 , wherein Na 3 TiF 6 or K 3 TiF 6 is added to the molten salt in the step 3 in any molar percentage. 8 . The method for preparing metallic titanium using titanium-containing oxide slag according to claim 7 , wherein Na 3 TiF 6 or K 3 TiF 6 is added to the molten salt in the step 3 in a molar percentage of 1 mol %. 9 . The method for preparing metallic titanium using titanium-containing oxide slag according to claim 1 , wherein the molten salt electrolysis in the step 3 is performed by a galvanostatic method or a potentiostatic method.