%0 Journal Article
%T Preferential site occupancy of alloying elements in TiAl-based phases
%A David Holec
%A Rajeev K. Reddy
%A Thomas Klein
%A Helmut Clemens
%J Physics
%D 2015
%I arXiv
%X First principles calculations are used to study the preferential occupation of ternary alloying additions into the binary Ti-Al phases, namely $\gamma$-TiAl, $\alpha_2$-Ti$_3$Al, $\beta_{\mathrm{o}}$-TiAl, and B19-TiAl. While the early transition metals (TMs, group IVB, VB , and VIB elements) prefer to substitute for Ti atoms in the $\gamma$-, $\alpha_2$-, and B19-phases, they preferentially occupy Al sites in the $\beta_{\mathrm{o}}$-TiAl. Si is in this context an anomaly, as it prefers to sit on the Al sublattice for all four phases. B and C are shown to prefer octahedral Ti-rich interstitial positions instead of substitutional incorporation. The site preference energy is linked with the alloying-induced changes of energy of formation, hence alloying-related (de)stabilisation of the phases. We further show that the phase-stabilisation effect of early TMs on $\beta_{\mathrm{o}}$-phase has a different origin depending on their valency. Finally, an extensive comparison of our predictions with available theoretical and experimental data (which is, however, limited mostly to the $\gamma$-phase) shows a consistent picture.
%U http://arxiv.org/abs/1512.07601v1