Abstract
In this paper, the microstructure and mechanical properties of a high Nb-TiAl alloy with different carbon contents were characterized and measured, and the influence mechanisms of carbon addition were discussed. The results indicate that, the added carbon was first dissolved in alloy matrix and caused lattice distortion in α₂-Ti(3)Al and γ-TiAl. Exceeding its solid solubility, which was proved to be about 0.6 at%, the extra carbon was precipitated in the form of Ti(2)AlC. In addition, with the increasing of carbon content, the volume fractions of the α₂ phase and Ti(2)AlC enhancement phase increased, while the relative contents of γ phase and B2 phase decreased. Under the synergistic effects of phase composition, C solid solution strengthening, Ti(2)AlC precipitation strengthening and fine crystal strengthening, the high Nb-TiAl-0.6 C alloy exhibits the best overall performance, especially the high temperature compression performance. Compared with the original alloy without carbon addition, at 800 °C, its compressive stress increases from 900 MPa to 1074 MPa and compressive strain corresponding to the maximum compressive stress increases from 11.3 to 12.5% respectively.