Effect of the oxidization of Si3N4 powder on the microstructural and mechanical properties of hot isostatic pressed silicon nitride

Abstract The effect of nanosized oxidized silicon nitride powder particles on the microstructural and mechanical properties of hot isostatic pressed silicon nitride was studied. The starting Si 3 N 4 powders were oxidized for 10 and 20 h at 1000 °C in ambient air environment. An amorphous oxide layer was observed on the surface of Si 3 N 4 powder particles using high resolution transmission electron microscopy (HRTEM) whose thickness increased with the oxidation time. The powders were hot isostatic pressed at 1500 °C and 1700 °C in nitrogen gas environment under 20 MPa for 3 h. Complete to transformation was observed in Si 3 N 4 samples sintered at 1700 C under 20 MPa for 3 h compared to Si 3 N 4 samples sintered at 1500 °C. Silicon oxynitride (Si 2 N 2 O) was found in sintered samples whose amount increased with the oxidation time. The phase decreased with the increase of Si 2 N 2 O phase in the sintered samples. The flexural strength of samples sintered at 1700 °C is higher due to the higher amount of -Si 3 N 4 phase than for samples sintered at 1500 °C. Decreasing flexural strength was observed with the oxidation time. Higher amount of oxygen in the base powders resulted in a higher Si 2 N 2 O content in the sintered Si 3 N 4 .