Slurry for thermal spraying, thermal sprayed coating, and method for forming thermal sprayed coating

The invention claimed is: 1. A thermal spray slurry comprising a flocculant and ceramic particles having an average particle size of 200 nm or more and 5 μm or less, the ceramic particles consist of yttrium oxide and contained in the thermal spray slurry in an amount of 50% by mass or less, wherein precipitates formed when 700 mL of the thermal spray slurry is placed in a 16.5-cm-high cylindrical vessel having a volume of 1 L and a central axis and is allowed to stand still at room temperature for 1 week are made to disappear by disposing, at a temperature of 20° C. or higher and 30° C. or lower, the cylindrical vessel so as for the central axis of the cylindrical vessel to be horizontal and by rotating the cylindrical vessel at a rotation speed of 100 rpm for 120 minutes around the central axis of the cylindrical vessel to stir the thermal spray slurry in the cylindrical vessel. 2. A method for forming a thermal spray coating, comprising high velocity flame spraying the thermal spray slurry according to claim 1 , containing water as a dispersion medium, to form a thermal spray coating. 3. A method for forming a thermal spray coating, comprising plasma spraying the thermal spray slurry according to claim 1 , containing an organic solvent as a dispersion medium, to form a thermal spray coating. 4. The method for forming a thermal spray coating according to claim 2 , further comprising feeding the thermal spray slurry to a thermal spraying apparatus by an axial feeding method. 5. The method for forming a thermal spray coating according to claim 2 , further comprising feeding the thermal spray slurry to a thermal spraying apparatus by using two feeders in such a way that the variation period of the feed rate of the thermal spray slurry from one of the feeders is opposite in phase to that from the other feeder. 6. The method for forming a thermal spray coating according to claim 2 , further comprising: temporarily storing the thermal spray slurry delivered from a feeder in a tank immediately before reaching a thermal spraying apparatus; and feeding the thermal spray slurry in the tank to the thermal spraying apparatus by utilizing free fall of the thermal spray slurry. 7. The method for forming a thermal spray coating according to claim 2 , further comprising feeding the thermal spray slurry to a thermal spraying apparatus through an electrically conductive tube. 8. The method for forming a thermal spray coating according to claim 2 , further comprising heating, during said spraying, the thermal spray slurry to a temperature of 110% or more of the melting point of the ceramic particles. 9. The method for forming a thermal spray coating according to claim 3 , further comprising feeding the thermal spray slurry to a thermal spraying apparatus by an axial feeding method. 10. The method for forming a thermal spray coating according to claim 3 , further comprising feeding the thermal spray slurry to a thermal spraying apparatus by using two feeders in such a way that the variation period of the feed rate of the thermal spray slurry from one of the feeders is opposite in phase to that from the other feeder. 11. The method for forming a thermal spray coating according to claim 3 , further comprising: temporarily storing the thermal spray slurry delivered from a feeder in a tank immediately before reaching a thermal spraying apparatus; and feeding the thermal spray slurry in the tank to the thermal spraying apparatus by utilizing free fall of the thermal spray slurry. 12. The method for forming a thermal spray coating according to claim 3 , further comprising feeding the thermal spray slurry to a thermal spraying apparatus through an electrically conductive tube. 13. The method for forming a thermal spray coating according to claim 3 , further comprising heating, during said spraying, the thermal spray slurry to a temperature of 110% or more of the melting point of the ceramic particles. 14. The thermal spray slurry according to claim 1 , wherein the flocculant is maleic anhydride. 15. The thermal spray slurry according to claim 1 , wherein the flocculant is aluminum sulfate. 16. The thermal spray slurry according to claim 1 , wherein the flocculant is carboxy vinyl polymer.