Purpose. Evaluation of the advantages of the innovative direction of obtaining the sought-after titanium and silicon oxides using the technology of hydrofluorination of ilmenite concentrates Research methods. Evaluation of the quality of laboratory samples – products of hydrofluorination of ilmenite with regard to the possibility of integrating the obtained materials into existing production schemes for the production of current titanium and silicon products, as well as in providing raw materials for promising technological processes. Chemical analysis was carried out by the method of atomic spectral analysis. In the laboratory studies, the raw material component was used – ilmenite concentrate from the Malyshev deposit (Vilnohirsky MMC, Ukraine). A fluorine-containing complexing agent – ammonium fluoride (NH4F) was used as a reagent. Laboratory studies of the decomposition of ilmenite in an aqueous solution of ammonium fluoride at temperatures not exceeding 200 °C were performed. Obtained results. Determination of the temperature range and conditions for conducting the ilmenite decomposition process ensures its high productivity and obtaining products that are intermediate and the composition of which determines the content of the subsequent processes of obtaining the target products. Implementation of decomposition of ilmenite using reactions in the solid phase provides a high potential for environmental safety of the technology. Scientific novelty. The obtained data can be used to justify a workable version of the energy-saving technological process of decomposition of ilmenite concentrate. Based on the obtained chemical analyzes of the decomposition products by hydrofluorination of ilmenite, the compliance of the obtained products with the requirements for the starting materials of a number of areas of their use in metallurgy and medicine was established. The possibilities of integration of the obtained materials into the existing production schemes of titanium and silicon products, as well as in providing the raw material needs of promising technological processes are shown. Practical value. The indicators of the purity of the obtained products confirm the prospects of the researched integration of the considered technology into the existing production schemes for obtaining products containing titanium and silicon.