An investigation on grain refinement mechanism of TiB₂ particulate reinforced AZ91 composites and its effect on mechanical properties

In this paper, the crystallographic orientation relationship between TiB₂ particles and α-Mg phase is identified by TEM to clarify the grain refinement mechanism of TiB₂ particulate reinforced AZ91 composites. The influence of the content of TiB₂ particles on the grain size and mechanical properties of TiB₂/AZ91 composites is investigated. The experimental result reveals that the TiB₂ particles can refine α-Mg grains in the AZ91 matrix, and with TiB₂ particles increased, the size of α-Mg grains in the composite decreases significantly. There exists a well-defined crystallographic orientation relationship between TiB₂ and α-Mg matrix, which is (0001)_TiB2∕∕(101¯1)_α−Mg, [1¯21¯0]_TiB2∕∕[1¯21¯0]_α−Mg in the present study. In the meanwhile, the lattice disregistry along the specific orientation relationship is 8.30% based on the theoretical calculation, confirming that TiB₂ particles can act as the effective heterogeneous nucleation site of α-Mg grains in TiB₂/AZ91 composites. Furthermore, the Brinell hardness, ultimate tensile strength and elongation of the composite are increased simultaneously with the increase of TiB₂ particles, which are attributed to the uniform TiB₂ particles dispersion, grain refinement strengthening and particles strengthening.