We study the synthesis of Ti2AlC MAX-phase ceramics via spark plasma sintering (SPS), focusing on the effects of temperature, precursor composition, and transition metal doping (Mo, Ta, Hf, W, Y, and Mn). Optimized sintering parameters were established, defining the precursor ratios necessary for the formation of Ti2AlC with >90% yield. Structural and compositional analyses revealed that select transition metals-Ta, Hf, W, and Y-could be incorporated into the Ti2AlC lattice, which resulted in >90% yield for each transition metal-doped MAX phase. In contrast, Mo and Mn predominantly formed separate phases. These findings provide insights into the controlled synthesis of MAX-phase materials with tunable properties for high-performance applications.
Keywords: MAX phase; Ti2AlC purity; spark plasma synthesis; transition metal doping.