%0 journal article %@ 1438-1656 %A Neumeier, S.,Bresler, J.,Zenk, C.,Haussmann, L.,Stark, A.,Pyczak, F.,Göken, M. %D 2021 %J Advanced Engineering Materials %N 11 %P 2100156 %R doi:10.1002/adem.202100156 %T Partitioning Behavior of Nb, Ta, and Zr in Fully Lamellar γ/α2 Titanium Aluminides and Its Effect on the Lattice Misfit and Creep Behavior %U https://doi.org/10.1002/adem.202100156 11 %X Previous investigations revealed that Nb, Ta and Zr improve the creep properties of fully lamellar titanium aluminides significantly. The enhanced creep properties can originate from different potential effects of the alloying elements. In this paper, the elements’ partitioning between α2–Ti3Al and γ–TiAl and their influence on the lattice parameters of ternary Ti–44Al–5X (X = Nb, Ta, Zr) alloys were investigated in comparison to a binary Ti‐44Al alloy by atom probe tomography and high energy X‐ray diffraction. Ta partitions nearly equally between α2 and γ, Nb accumulates slightly in γ and Zr enriches strongly in γ. Since all alloying elements have a larger radius than Ti, a stronger partitioning to γ decreases the lattice misfit more. The synchrotron measurements show a clear influence of the alloying elements on the lattice parameters and resulting lattice misfits in γ‐110]– and γ‐101]–direction as well as the c/a–ratio. In accordance with theoretical calculations based on the partitioning behaviour, the lattice misfit decreases from Ti–44Al–5Ta over Ti–44Al–5Nb to Ti–44Al–5Zr. The c/a–ratio decreases from Ti–44Al–5Nb over Ti–44Al–5Ta to Ti–44Al–5Zr. A correlation between the measured lattice misfits of the ternary Ti‐44Al‐5X with their primary creep strains was found, as the primary creep strain decreases with decreasing lattice misfit.