Crystallography of Bcc/T₁/T₂ three-phase microstructure in the directionally solidified Mo-Nb-Si-B alloy

In the present study, the crystallographic features of bcc/T₁/T₂ three-phase microstructure in a directionally solidified Mo-32.2Nb-19.5Si-4.7B (at.%) alloy have been examined by electron back-scattering diffraction (EBSD) analysis. The alloy was directionally solidified using an optical floating zone (OFZ) furnace in a flowing Ar gas atmosphere at a constant growth rate of 10 mm/hour. The microstructure of the directionally solidified alloy is characterized by an elongated T₂ phase surrounded by inclusions of bcc and T₁ phases with an interwoven morphology. The T₂ grains are faceted on the (001) planes and elongated along the [110] direction. The T₂ phase has an orientation relationship of (001)_t2//(01 l)_bcc and [130]_T2//[211]_bcc with the bcc phase, whereas any particular orientation relationships of T₁ phase with bcc and T₂ phases have not been found. These crystallographic features of bcc/T₁/T₂ three-phase microstructure suggest that the primary T₂ phase crystallizes and grows along the [110] direction in liquid phase, followed by nucleation of the bcc phase on the interface between T₂ and liquid phases, resulting in bcc/T₁ two-phase eutectic reaction surrounding the elongated T₂ phase.