Methods for forming a unitized crucible assembly

What is claimed is: 1. A method for forming a unitized crucible assembly for holding a melt of silicon for forming a silicon ingot by the Czochralski method, the method comprising: providing a crucible mold, the crucible mold having: a channel network comprising: a bottom channel; an outer sidewall channel that extends from the bottom channel; a central weir channel that extends from the bottom channel; and an inner weir channel that extends from the bottom channel, the central weir channel being disposed between the outer sidewall channel and the inner weir channel, the outer sidewall channel, the central weir channel, and the inner weir channel being interconnected; a central weir channel riser that is in fluid communication with the central weir channel; an inner weir channel riser that is in fluid communication with the inner weir channel; and an outer sidewall channel riser that is in fluid communication with the outer sidewall channel, wherein the central weir channel riser, the inner weir channel riser, and the outer sidewall channel riser extend through an upper surface of the crucible mold; introducing a slip slurry into at least one of (1) the central weir channel riser, (2) the inner weir channel riser, and (3) the outer sidewall channel riser to fill the bottom channel, outer sidewall channel, central weir channel, and inner weir channel with the slip slurry, the slip slurry comprising silica and a liquid carrier; removing at least a portion of the liquid carrier from the channel network to form a green body; separating the green body from the crucible mold; and sintering the green body to dry and densify the green body to form the unitized crucible assembly. 2. The method as set forth in claim 1 wherein the crucible mold comprises a porous body and draws the liquid carrier into the crucible mold by capillary action. 3. The method as set forth in claim 2 wherein the porous body is made of porous silica. 4. The method as set forth in claim 1 wherein a moisture content of the green body is less than about 50 wt %. 5. The method as set forth in claim 1 wherein the green body is sintered at a temperature from about 1200° C. to about 1800° C. 6. The method as set forth in claim 1 wherein the bottom channel, outer sidewall channel, central weir channel and inner weir channel are each fluidly connected to each other. 7. The method as set forth in claim 6 wherein the bottom channel is rounded and the unitized crucible assembly is transparent and includes a single layer bottom. 8. The method as set forth in claim 1 wherein the unitized crucible assembly comprises: a bottom; an outer sidewall that extends upward from the bottom; a central weir that extends upward from the bottom; and an inner weir that extends upward from the bottom, the central weir being disposed between the outer sidewall and the inner weir. 9. The method as set forth in claim 1 wherein the slip slurry and/or crucible mold are selected to form a unitized crucible assembly having a concentration of calcium of less than about 1 ppmw, a concentration of sodium of less than about 0.5 ppmw, a concentration of potassium of less than about 0.5 ppmw, a concentration of lithium of less than about 0.5 ppmw, and a concentration of iron of less than about 0.5 ppmw. 10. The method as set forth in claim 1 wherein each of the central weir channel riser, inner weir channel riser, and outer sidewall channel riser comprises a cone portion and a duct, the cone portion being disposed above the duct and in fluid communication with the duct. 11. The method as set forth in claim 1 wherein the central weir channel riser is a first central weir channel riser, the inner weir channel riser is a first inner weir channel riser, and the outer sidewall channel riser is a first outer sidewall channel riser, the crucible mold comprising: a second central weir channel riser that is in fluid communication with the central weir channel; a second inner weir channel riser that is in fluid communication with the inner weir channel; and a second outer sidewall channel riser that is in fluid communication with the outer sidewall channel riser, the method comprising withdrawing air from at least one of (1) the second central weir channel riser, (2) the second inner weir channel riser, and (3) the second outer sidewall channel riser while slip slurry is introduced into at least one of (1) the central weir channel riser, (2) the inner weir channel riser, and (3) the outer sidewall channel riser. 12. The method as set forth in claim 1 wherein the central weir channel riser, the inner weir channel riser, and the outer sidewall channel riser are aligned.