Abstract
Cracks are fatal defects of ceramic coatings for carbon/carbon (C/C) composites, through which oxygen will severely destroy the substrate at ultra-high temperature environments. Therefore, the coating materials with rapid self-repairing ability should greatly improve their service stability. Here ZrSi2-MoSi2 coating was designed and fabricated by supersonic plasma spray on SiC coated C/C composites. Results show that it has narrower surface cracks and better self-healing ability at 1450 °C than pure MoSi2 coating. Moreover, it efficiently protects C/C composites from oxidation for 42 h with a mass gain of 1.89% compared to MoSi2 coating with a mass loss of 4.6% for 38 h at 1450 °C. The improvement of the self-healing ability and oxidation protective performance primarily owes to three reasons: 1) the preferential oxidation of ZrSi2 to rapidly form ZrO2/ZrSiO4 particles to reduce the formation of cracks. 2) Low viscosity SiO2 phase to completely heal the cracks. 3) Protective SiO2 layer pinned by ZrO2/ZrSiO4 particles to restrain re-cracking during cooling.
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