Grains refinement mechanism of (Ti,Ta)3SiC2/Al2O3 composite ceramics

(Ti,Ta)(3)SiC2/Al2O3 composite ceramics were prepared by hot-pressing sintering using TaC as Ta source. X-ray diffraction analysis showed that the maximum of solid solubility of Ta in Ti3SiC2 were determined to be from 7.5 to 10 at%. With the increase of TaC contents, the grain size of Ti3SiC2 reduced obviously. Combined Wulff theorem and first-principle calculations, the probable mechanism of this refinement phenomenon was revealed. When Ta atoms substitute Ti in surface atomic layers, the surface energy of (001) plane increased significantly compared to those of (100) plane, which restricted the growth of (001) facets. As it is the largest exposed surface, the lower growth rate of (001) facets lead to the grains refinement. The results will provide theoretical guidance for surface modification and morphological transformation of Ti3SiC2-based ceramics.

Automated summary

In this study, (Ti, Ta)(3)SiC2/Al2O3 composite ceramics were prepared by hot-pressing sintering using TaC as a tantalum source. The results showed that the grain size of Ti3SiC2 reduced significantly with the increase of TaC contents. The possible mechanism of this refinement phenomenon was revealed, providing theoretical guidance for surface modification and morphological transformation of Ti3SiC2-based ceramics.