Abstract:Effects of cooling rate and 0.25 at.% TiB₂ addition on solidification microstructure and mechanical properties of Ti-48Al-2Cr-2Nb alloys fabricated by the investment casting with different thicknesses were studied. The results show that with the cooling rate increasing from 37 to 2×10² K/s, the solidification path of the studied alloys is unchanged. The grain size of the matrix alloy is refined from 650 to 300 μm, while the grain size of Ti-48Al- 2Cr-2Nb-TiB₂ is reduced from 550 to 80 μm. The lamellar spacing of matrix alloy is reduced from 360 to 30 nm with increasing the cooling rate from 37 to 2×10² K/s, while TiB₂ addition shows little refinement effect on the lamellar spacing. Ti-48Al-2Cr-2Nb-TiB₂ sample under medium cooling rate (69 K/s) exhibits superior microhardness (HV 550) and ultimate tensile strength (570 MPa) among the studied alloys. The refined grain size, lamellar spacing and fine TiB₂ particles could account for the favorable mechanical properties of the studied TiB₂-containing alloy. The microstructure evolution was discussed in light of cooling rate, constitutional supercooling and borides addition.

Key words: titanium aluminides; TiB₂; cooling rate; microstructure evolution; mechanical properties