Microstructural Characterization of Plasma-sprayed Oxide Ceramics

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Microstructural and microchemical characterization has been carried out on plasma-sprayed zircon (ZrSiO₄) and alumina-chromia (Al₂O₃–5wt%Cr₂O₃) by transmission electron microscopy and energy dispersive X–ray analysis. The as–sprayed zircon coatings consist of zirconia and silica glass as a result of phase separation during rapid cooling in the plasma–spraying process. Zirconia shows a tetragonal structure for small particles and a monoclinic for large particles. The zircon coatings annealed at 1 300°C for 96 h in air show a mixture of zircon and monoclinic zirconia phases. Alumina–chromia coatings plasma–sprayed with N₂ gas consist mainly of a polycrystalline alumina–chromia solid solution with a typical grain size of 0.4 μm. Fine precipitates are observed frequently along the grain boundaries in the coatings sprayed with Ar–H₂ gas mixture or N₂–H₂ gas mixture. The fine precipitates are a metallic Cr–rich Cr–Al alloy formed by reduction of Cr₂O₃ and Al₂O₃ during the plasma-spraying process. These precipitates disappear during annealing at temperatures higher than 1 300°C for 96 h in air. The precipitates affect the wear resistance of the coatings.