Effect of Cu and Zn elements on morphology of ceramic particles and interfacial bonding in TiB2/Al composites

The 50 vol% TiB2/Al composites with different alloying elements (Cu and Zn) were prepared by hot pressing sintering. The effects of Zn and Cu on the micromorphology of TiB2 ceramic particles and interfacial behavior between TiB2 ceramic and Al matrix as well as the mechanical properties of composites were investigated. Re-sults indicated that the addition of Zn and Cu not only significantly enhanced the interfacial bonding strength between TiB2 ceramic particles and Al matrix but also facilitated the reaction by reducing the reaction tem-perature in the Al-Ti-B system. Furthermore, the yield strength (719 MPa) and ultimate compressive strength (1130 MPa) of TiB2/Al-6wt.%Cu composite increased by 48.8% and 26.4%, respectively, compared with that of the composite without alloy element. For the TiB2/Al-6wt.%Zn composite, the yield strength and ultimate compressive strength increased by 15.3% and 7.8%, respectively. The improvement on the mechanical properties can be attributed to solid solution strengthening and second phase strengthening.