Microstructure evolution and mechanical properties of a high Nb-TiAl alloy via HIP and heat treatment

Hot isostatic pressing (HIP) and heat treatment (HT) are useful methods for adjustment and control of microstructure and mechanical properties of TiAl alloys, especially for casting components. Due to the vast varieties in chemical composition, phase constitution and microstructure of TiAl alloys, the evolution of microstructure and precise control of mechanical properties are vague and uncertain. In this study, the microstructure, phase content and mechanical properties of Ti-46Al-6Nb-0.1C (at%) alloy are systematically investigated during the whole processing state. HIP and HT can change the microstructure, phase content, and lamellae thickness within the lamellar colonies through phase transformation, which in turn significantly affect the tensile properties. Small lamellar spacing and high & alpha;2 phase content can improve the strength of the alloy, while equiaxed & gamma; grains and thick & gamma; lamellae can improve its plasticity at room temperature. HIP at 1270 degrees C can improve its plasticity but reduce the ultimate tensile strength. Subsequent with HT at 1350 degrees C, microstructure can be modulated with thin lamellae, resulting in higher uniformity and well-balanced mechanical properties.

Automated summary

The study found that HIP and HT can improve the mechanical properties of TiAl alloys by adjusting the microstructure and phase composition, thereby enhancing its strength and plasticity. Changes in interlamellar spacing, phase content, and lamellae thickness during HIP and HT processes have significant effects on the alloy's mechanical properties.