This study investigates the grinding of sintered silicon nitride using a SiC wheel with a fine abrasive grit size and dense vitreous bond. The difference of hardness between the green SiC abrasive and sintered Si 3 N 4 workpiece (25.5 vs. 13.7GPa) is small. Large grinding forces, particularly the specific tangential grinding forces, are observed in SiC grinding of Si 3 N 4 . The measured specific grinding energy is high, 400–6000J/mm 3 , and follows an inverse relationship relative to the maximum uncut chip thickness as observed in other grinding studies. The SiC wheel wears fast in grinding Si 3 N 4 . The G-ratio varies from 2 to 12. Two unique features in SiC grinding of Si 3 N 4 are the trend of increasing G-ratio at higher material removal rate and the excellent surface integrity, with 0.04–0.1μm R a and no visible surface damage. For a specific material removal rate, surface cracks along the grinding direction are generated on the ground surface. The problem of chatter vibration was identified at high material removal rates. Periodic and uneven wheel loading marks and clusters of workpiece surface cracks across the grinding direction could be observed at high material removal rates. This study demonstrates that the SiC grinding wheel can be utilized for precision form grinding of Si 3 N 4 to achieve good surface integrity under a limited material removal rate.