Microstructural characterization of Mo-12Si-8.5B alloy subjected to diffusion annealing treatment

Microstructural evolutions in the solidification and subsequent diffusion annealing treatment of Mo-12Si-8.5B alloys have been studied by using XRD, OM, SEM and TEM. Because the annealing temperature (1900 °C) is in the vicinity of four-phase equilibrium eutectic reaction (1950 °C) point of L = Mo₃Si + Mo₅SiB₂ (T₂)+Mo_ss (Mo solid solution), the dendrites and lamellar phase have almost been dissolved. Dislocations, Mo_ss precipitates and subgrain boundary have been observed in the T₂ phase while the other phases are not found. In addition, dislocations are from excess vacancy during the annealing treatment and play important roles for the Mo_ss precipitate. The dislocations can serve as the heterogeneous nucleation sites and compose of sub-boundary which refines the grain size to some extent. The results observed in this study can be used as a reference for future work on the relationships between microstructure and mechanical property of the Mo-Si-B alloys.