New insights into high-temperature deformation and phase transformation mechanisms of lamellar structures in high Nb-containing TiAl alloys

The paper describes the microstructure evolution by high-temperature compression of a high Nb-containing TiAl alloy. The paper extends a previous publication Song, et al. Intermetallics 109 (2019) 91-96], in which a unique twin-like morphology in the alpha(2) (Ti3Al) phase was reported. However, the origin of these structures could not be clarified without doubt. The present study is focused on phase transformations that in this multiphase alloy can be associated with deformation. Particular attention is paid to local transformations of the alpha(2) phase into O phase or co-related phases, which, because of structural and chemical similarity of these phases with alpha(2), can easily occur and could mistakenly be considered as a twin structure. The details of the atomic processes involved are elucidated by electron microscopy. Given the large shufflings and the atomic site interchanges required for the operation of this twinning system, it is concluded that twinning of the alpha(2) phase is a diffusive-displacive process. Within the alpha(2) phase, omega(o) is heterogeneously nucleated. The nudeation sites are defect-rich areas, which are subjected to high local stresses. The study strongly emphasizes the close relationship between high-temperature deformation and phase transformations in multiphase titanium aluminide alloys. (C) 2020 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.