Alpha/beta heat treatment of a titanium alloy with a nonuniform microstructure

Abstract

The effect of alpha/beta solution temperature and cooling rate on the evolution of microstructure during the heat treatment of Ti-6Al-2Sn-4Zr-2Mo-0.1Si (Ti6242Si) with a partially spheroidized starting microstructure of equiaxed+remnant lamellar alpha was established. Experiments comprising induction heating to a peak temperature of 971°C or 982°C followed by cooling at a rate of 11°C/min or 42°C/min revealed that the volume fraction of the equiaxed alpha grew much more rapidly than the lamellar constituent. These results were explained semiquantitatively using simple diffusion analyses of the growth of either spherical or elliptical particles, taking into account the soft impingement of the concentration fields. Despite the much lower diffusivity of molybdenum, which appears to control the growth of primary alpha in Ti6242Si, the similarity of the overall kinetics compared to those measured previously for Ti-6Al-4V was explained on the basis of the higher supersaturations developed during cooldown in the present alloy. © THE MINERALS, METALS & MATERIALS SOCIETY and ASM INTERNATIONAL 2007.