Pressureless sintering of β-SiC with Al2O3 additions

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Abstract

β-SiC was pressureless sintered to 98% theoretical density using Al2O3 as a liquid-phase forming additive. The reaction between SiC and Al2O3 which results in gaseous products, was inhibited by using a pressurized CO gas or, alternatively, a sealed crucible. The densification behaviour and microstructural development of this material are described. The microstructure consists of fine elongated α-SiC grains (maximum length ≈ 10 μm and width 2-3 μm) in a matrix of fine equi-axed grains (2-3 μm) and plate-like grains (2-5μm). The densification behaviour, composition and phases in the sintered product were studied as a function of the sintering parameters and the initial composition. Typically, 50% of the β-phase was transformed to the α-phase. © 1994 Chapman & Hall.

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Mulla, M. A., & Krstic, V. D. (1994). Pressureless sintering of β-SiC with Al2O3 additions. Journal of Materials Science, 29(4), 934–938. https://doi.org/10.1007/BF00351412

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