Titanium dioxide is the second most widely used oxide in the world and has a high production potential due to its diverse applications. The most important titanium mineral is ilmenite with the chemical formula FeTiO_3 and many studies have been done to optimize the TiO 2 extraction process. In general, various methods of hydrometallurgy and pyrometallurgy have been used to extract TiO_2 from ilmenite. Recovery of carburettes of illegitimate kahnoj in the solid state and then leaching revivals is a suitable method for converting ilmenite to titanium oxide. In this study, ilmenite concentrate was oxidized at 1000 ° C in a furnace furnace with atmospheric air to completely oxidize the structural iron. The oxidized ilmenite was then mixed with a good proportion of the graphite regenerator in the mixer. Blitz samples were produced using a suitable press and molding machine. Bricks produced in a tube furnace under atmospheric air with a protective layer of coal or under an atmosphere of argon. Three specimens were restored at three temperatures of 1000, 1100 and 1200 ° C to study the effect of temperature in each atmosphere. Products from regeneration at different temperatures were leached at 25 ° C for 3 hours at 90 ° C with chloride. The remaining leachate deposits were separated by filter paper and dried in an oven at 150 ° C. Finally, high purity titanium dioxide was obtained. Based on the results, oxidizing ilmenite before regeneration increased the regeneration and the final product was obtained with higher purity. Because oxidizing ilmenite, the structure was separated and the surface of the particles was also highly porous. It was found that the regeneration of the oxidized ilmenite with the graphite revitalizer at 1200 ° C under argon atmosphere produced the best product. The final product obtained from this process, according to the results of various tests, contains 91% titanium dioxide. key words Titanium dioxide, Ilmenite, Solid state carburettransmission, leaching