Abstract

The paper focuses on obtaining Ti 2 AlC and Ti 3 AlC 2 MAX phase powders by self-propagating high-temperature synthesis (SHS) from oxide raw materials using magnesium-thermal reduction. The source of titanium was its oxide TiO 2 with magnesium used as a reducing agent. Cleaning from magnesium oxide was conducted in hydrochloric acid solution with a concentration of 1:3 at t = 70 °C. The yield of the target product in magnesium thermal reduction is 35–40 %. It was found that the synthesis product consisted of Ti 2 AlC, MgAl 2 O 4 and TiC after chemical leaching in hydrochloric acid at the stoichiometric ratio of components. MgAl 2 O 4 spinel was formed due to the lack of magnesium reducing agent in the green mixture, while some part of aluminum reacted with titanium oxide reducing it and forming Al 2 O 3 . It led to MgO·Al 2 O 3 formation. An increase in the excess magnesium content in the green mixture from 20 wt.% to 30 wt.% leads to the complete reduction of titanium from its oxide by magnesium with the formation of Ti 2 AlC MAX phase and titanium carbide. A decrease in carbon content by 10 wt.% in the green mixture leads to a decrease in titanium carbide content to 4 %. With an excess content of soot from 20 % to 35 %, a product containing Ti 3 AlC 2 , Ti 2 AlC and TiC MAX phases is formed, and the mass fraction of Ti 3 AlC 2 increases from 86 % to 89 %, respectively. The resulting powders are agglomerates consisting of thin plates of 70–100 nm thick MAX phases. 87 % of such agglomerates are less than 65 μm in size.

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