Abstract
the chemical composition, surface morphology and electrochemical properties of the Ti–Al–V alloy in the initial state and after irradiation with O+ ions and alternating irradiation with O+ and N+ ions with different doses of irradiation dose of N+ ions are studied. Under irradiation with O+ ions, the active oxidation of Ti atoms is shown to occurs, which is accompanied by the formation of titanium oxides and hydroxides. In the course of subsequent irradiation with N+ ions, the accumulation of nitrogen and formation of titanium nitride TiN are found to occur to lower concentrations as compared to those observed without the preliminary irradiation with O+ ions. It is assumed that this is due to the higher chemical activity of oxygen with respect to titanium atoms, as compared to that of nitrogen.
Published Version
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