Abstract
ZrB₂⁻HfC ceramics have been fabricated using the liquid phase sintering technique at a sintering temperature as low as 1750 °C through the addition of Ni. The effects of HfC addition on the microstructure and mechanical properties of ZrB₂⁻based ceramics have been investigated. These ceramics were composed of ZrB₂, HfC, Ni, and a small amount of possible (Zr, Hf)B₂ solid solution. Small HfC grains were distributed among ZrB₂ grain boundaries. These small grains could improve the density of ZrB₂⁻based ceramics and play a pinning role. With HfC content increasing from 10 wt % to 30 wt %, more HfC grains were distributed among ZrB₂ grain boundaries, leading to weaker interface bonding among HfC grains; the relative density and Vickers hardness increased, and flexural strength and fracture toughness decreased. The weak interface bonding for 20 and 30 wt % HfC contents was the main cause of the decrease in both flexural strength and fracture toughness.