Effect of Grain Boundary Crystallization on the Mechanical and Alkaline Corrosion Characteristics of Sintered Silicon Nitride

Abstract

To evaluate an effect of grain boundary crystallization on corrosion characteristics of sintered silicon nitride in alkaline, weight-loss was measured during corrosion test in boiling 30mass% NaOH aqueous solution up to 200h for as-sintered and heat-treated Si₃N₄ (1100°C, 3h+1400°C, 6h). As-sintered and heat-treated Si₃N₄ showed 0.8mass% and 0.1mass% weight decrease after 200h, respectively. The grain boundary crystallization was effective to improve the corrosion resistance of Si₃N₄. This could be attributed that quarternary oxynitrides Y₈Si₄N₄O₁₄ and Y₂₀Si₁₂N₄O₁₈, called as J-phase and H-phase, respectively, crystallized in intergranular liquid by the heat treatment, resulting in a decrease of residual secondary glass phase in grain boundaries. Mechanical characteristics including crushing load of Si₃N₄ ball, fracture toughness and hardness were evaluated, and the grain boundary crystallization improved these properties slightly.