Variation of sintering parameters at an early stage of densification affecting β-Si3N4-microstructure

The influence of sintering parameters at an early stage of densification on the evolution of a bimodal microstructure in Si₃N₄ ceramics was investigated. Commonly two different methods are pursued to design a bimodal Si₃N₄ microstructure: (i) annealing at a later sintering stage (T > 1850 °C) initiating β-Si₃N₄ grain growth via Ostwald ripening and (ii) seeding with β-Si₃N₄ nuclei, which abnormally grow during the liquid-phase sintering process. In this study, a third and novel method to design Si₃N₄ microstructures by affecting intrinsic nucleation phenomena at an early sintering stage is presented. In order to study the influence of sintering parameters on β-Si₃N₄ nuclei formation during the early stage of densification, temperature and pressure were systematically changed. Starting from identical green bodies (identical processing and doping), the variation of the sintering parameters affected intrinsic β-Si₃N₄ nucleation. This procedure allows variation in the fineness of the matrix as well as in the number and dimension of the large elongated β-Si₃N₄ grains embedded in the matrix. Since identical green bodies are used as starting material, the resulting microstructure can easily be tailored toward corresponding application needs.