Pressure casting of submicron ceramic particles and methods of ejection

What is claimed is: 1. A method for making a ceramic block, comprising: a) providing a pressure casting apparatus that comprises a mold having an impermeable cavity surface and a cavity opening that is in direct contact with a porous casting substrate; b) delivering a ceramic slurry into the mold cavity and casting the slurry under pressure, vacuum, or a combination of pressure and vacuum greater than 20 psi; c) removing liquid from the slurry under pressure via the porous casting substrate; d) consolidating ceramic particles forming a ceramic green body within the cavity; e) removing the porous casting substrate from the apparatus to expose a mold opening; and f) ejecting the resulting ceramic green body from the mold opening by a dry release process using a pressure, vacuum, or a combination of pressure and vacuum greater than 5 psi; wherein the difference between the volume of the green body and the volume of the mold cavity is less than 2% when the green body is ejected from the mold cavity. 2. The method for making a ceramic block of claim 1 , wherein the ceramic slurry comprises yttria stabilized zirconia having a particle size of D(50)<600 nm. 3. The method for making a ceramic block of claim 2 , wherein the ceramic slurry comprises yttria stabilized zirconia having a particle size in the range of D(50)=100 nm to 400 nm. 4. The method for making a ceramic block of claim 2 , wherein the ceramic slurry comprises yttria stabilized zirconia having a particle size in the range of D(50)=20 nm to 100 nm. 5. The method for making a ceramic block of claim 1 , wherein the slurry is cast under pressure, vacuum, or a combination of pressure and vacuum of between 20 psi and 900 psi. 6. The method for making a ceramic block of claim 5 , wherein the slurry is cast under pressure, vacuum, or a combination of pressure and vacuum of between 150 psi and 600 psi. 7. The method for making a ceramic block of claim 1 , wherein the dry release process includes applying a pneumatic pressure directly to the green body. 8. The method for making a ceramic block of claim 7 , wherein the green body has a first side that abuts the porous casting substrate prior to removing the porous casting substrate from the apparatus, and the pneumatic pressure is applied to a side of the green body opposite the first side. 9. The method for making a ceramic block of claim 1 , wherein the ceramic green body is ejected from the mold opening without recirculating the liquid. 10. The method for making a ceramic block of claim 1 , wherein the mold cavity comprises a single piece mold. 11. The method for making a ceramic block of claim 1 , wherein the mold cavity comprises a multiple piece mold. 12. The method for making a ceramic block of claim 1 , wherein the porous casting substrate has a median pore diameter of less than 3 μm. 13. The method for making a ceramic block of claim 1 , wherein the porous casting substrate has a median pore diameter of less than 1 μm. 14. The method for making a ceramic block of claim 1 , wherein the porous casting substrate has a median pore diameter of between 0.1 μm and 0.6 μm. 15. The method for making a ceramic block of claim 1 , wherein the green body has a moisture content of at least 8 wt % when it is ejected from the mold opening. 16. The method for making a ceramic block of claim 15 , wherein the green body has a moisture content of at least 10 wt % when it is ejected from the mold opening. 17. The method for making a ceramic block of claim 16 , wherein the green body has a moisture content of at between 10 wt % and 12 wt % when it is ejected from the mold opening. 18. The method for making a ceramic block of claim 1 , wherein the difference between the volume of the green body and the volume of the mold cavity is less than 0.5% when the green body is ejected from the mold cavity. 19. The method for making a ceramic block of claim 1 , wherein the porous casting substrate comprises plaster.