Abstract
SiC and ZrC were used to tailor microstructures and improve properties of hot-pressed ZrB2-based ceramics. Grain growth kinetics and microstructural stability during annealing were studied. Compared with ZrC, SiC grains grew slower and were more effective to inhibit ZrB2 grain growth. ZrB2–20SiC–20ZrC (number in vol%) had the finest and the most stable microstructure, indicating synergistic effects of SiC and ZrC on grain growth. Also, ZrC and SiC played different roles on mechanical properties. Thermal residual stresses on SiC particles decreased from ∼800MPa in ZrB2–SiC to ∼400MPa in ZrB2–SiC–ZrC, due to the plastic deformation of ZrC. Crack deflection around ZrC grains was the major toughening mechanism (∼1 MPam1/2) in ZrB2–ZrC-based ceramics. The flexural strengths of ZrB2–SiC–ZrC were improved to 800MPa, due to smaller SiC cluster sizes and lower residual stresses. ZrB2–20ZrC had the largest Weibull modulus of 14.1, and the modulus decreased with an increase in SiC content.
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