Abstract
Four types of commercially available SiC powders were hot-pressed with 1 wt % Dy2O3–AlN additives in a 3:2 molar ratio. Three submicron-sized SiC powders could be densified so as to have a relative density higher than 98%, whereas a micron-sized SiC powder showed limited densification up to 93.5%. SiC ceramics fabricated from β-SiC powders exhibited electrical resistivities (∼10−1 Ω·cm) that were lower than those from α-SiC powders (∼101 Ω·cm). The lower electrical resistivity of the SiC ceramics fabricated from β-SiC powders could be attributed to a higher carrier density and enhanced charge mobility when compared to the SiC ceramics from α-SiC powders.
