Refinement of carbide precipitates in high-Nb TiAl by cyclic aging treatments

High-Nb TiAl alloys are considered as new generation of gamma-TiAl alloys for applications at higher service tem-peratures owing to their superior high-temperature oxidation and creep resistance. Addition of C element can further improve its high temperature creep resistance through solid solution strengthening and precipitation strengthening, but the coarse carbide precipitates are not conducive to the mechanical performance improve-ment. This paper provides a method for refinement of carbide precipitates via solution and cyclic aging treat-ments in an as-cast Ti-45Al-8Nb-0.9C (at%) alloy. Coarse primary carbides that precipitated during casting were eliminated through solution treatment, while numerous submicron secondary carbides were precipitated through cyclic aging treatments. The crystallographic orientation relationship between the precipitated submicron sec-ondary carbides and the high-Nb TiAl matrix was determined by various transmission electron microscopy characterization methods. This refinement method provides a possible way for refinement of other precipitates in TiAl alloys.

Automated summary

This paper presents a method for refinement of carbide precipitates in a cast Ti-45Al-8Nb-0.9C (at%) alloy through solution treatment and cyclic aging treatments. The coarse primary carbides that formed during casting were eliminated, while numerous submicron secondary carbides were precipitated. The crystallographic orientation relationship between the submicron secondary carbides and the high-Nb TiAl matrix was determined through various transmission electron microscopy characterization methods. This refinement method offers a potential approach for refining other precipitates in TiAl alloys.