Effect of different preparation methods on the microstructure and mechanical properties of Si3N4 ceramic composites

Abstract

In this study, Si3N4 ceramic composites were fabricated by using ball-milling, titration preparation and urea preparation methods, respectively. The effect of different preparation methods on microstructure and mechanical properties of the Si3N4 ceramic composites was investigated. Obviously, the Si3N4 ceramic composite prepared by the urea preparation method (U-SN sample) showed better sintering behavior and higher mechanical properties than that prepared by the other two methods. Compared with the Si3N4 ceramic composite by the titration preparation method (T-SN sample), we could avoid the complex titration process or uncontrollable pH value during the preparation process of the U-SN sample. Meanwhile, the coated Y-Al precursor layer in thickness of nanometers was more homogeneous than that prepared by the traditional titration method. B-SN represented the Si3N4 ceramic composite prepared by the ball-milling method. These samples were all sintered from room temperature to 1750°C via hot-pressing sintering. The U-SN specimen showed the optimal flexural strength and fracture toughness of being 817MPa and 6.90MPa/m2, respectively, which could be attributed to its smallest grain size (0.46µm) among these three samples.