Microstructure and Mechanical Properties of TiAl₃/Al₂O₃ in situ Composite by Combustion Process

Abstract

ABSTRACT

The microstructure and mechanical properties of TiAl₃/Al₂O₃ in situ composite prepared via a combustion process were investigated in detail. Pure Al powder and TiO₂ powder (molar ratio 13 : 3) were mechanically milled at 300 rpm for 18 ks. The milled powders were cold-pressed at 200 MPa for 0.3 ks and then green compact were sintered at 923 − 1173 K for 1.8 ks under Ar atmosphere. The microstructure of the sintered compact was analyzed using XRD, SEM and TEM/EDS, and the mechanical properties were evaluated using Vickers hardness and indentation fracture toughness tests. The compacts sintered at temperatures below 973 K consisted of a TiAl₃ phase and remaining Al and TiO₂ phases, while those sintered at temperatures above 1023 K consisted of a TiAl₃ matrix, dispersed Al₂O₃ particles, and a plate-like Ti₃Al phase. In addition, the compacts sintered above 1023 K had a higher hardness (approximately 800 Hv) compared to that of the TiAl₃ single-phase compact (450 Hv). The fracture toughness of the TiAl₃/Al₂O₃ composite was also approximately twice that of the TiAl₃ single-phase compact. This improvement in the hardness and toughness is attributed to the microstructure of the composite, particularly the formation of dispersed Al₂O₃ particles and the Ti₃Al plate-like phase in the TiAl₃ matrix.