Polychromatic zirconia bodies and methods of making the same

We claim: 1. A method of coloring a ceramic body for use in dental applications comprising: a. obtaining a porous ceramic body comprising i. a first end surface adjacent a first porous region, ii. a second end surface adjacent a second porous region, opposite the first end surface, and iii. a side surface that is continuous between the first end and second end surfaces; b. contacting and covering the second end surface and the side surface with a casing material; c. infiltrating a diluting liquid through the first end surface to occupy a first porous region adjacent the first end; wherein the casing material contacting the second end surface and side surface prevents the diluting liquid from passing through the second end surface and the side surface; d. removing the casing material from the second end surface and contacting and covering the first end surface with the casing material; e. infiltrating a liquid coloring composition comprising a liquid component and a coloring agent through the second end surface to occupy the second porous region adjacent the second end surface, wherein the casing material on the first end and the side surface prevents the liquid coloring composition and the diluting liquid from passing through the first end surface and side surface; f. contacting a portion of the liquid coloring composition in the second porous region with a portion of the diluting liquid in the first porous region; and g. forming a color gradient region, wherein the coloring agent has a concentration that decreases from the second porous region towards the first porous region. 2. The method of claim 1 , wherein the liquid coloring composition contacts the diluting liquid at an interface and the coloring agent is diluted by the diluting liquid adjacent the interface. 3. The method of claim 1 , wherein during infiltrating the diluting liquid, the first porous region is positioned above the second porous region, and the diluting liquid is infiltrated into the ceramic body through the first end surface downwardly into the first porous region. 4. The method of claim 3 , further comprising inverting the porous ceramic body after infiltrating the diluting liquid to position the second porous region above the first porous region, and the liquid coloring composition is infiltrated from the second end surface downwardly into the second porous region. 5. The method of claim 1 , comprising unidirectionally infiltrating the diluting liquid from the first end surface into the first porous region, and unidirectionally infiltrating the liquid coloring composition from the second end surface into the second porous region, wherein the diluting liquid and the liquid coloring composition are infiltrated sequentially. 6. The method of claim 1 , comprising infiltration between 3% by volume and 75% by volume porosity of the porous ceramic body with the diluting liquid, and infiltrating between 25% by volume and 97% by volume porosity of the porous ceramic body with the liquid coloring composition. 7. The method of claim 1 , further comprising heating the porous ceramic body to fix a first portion of the coloring agent in a position within the porous ceramic body, and for a second portion of the coloring agent that is not fixed, diffusing the second portion within the porous ceramic body. 8. The method of claim 1 , wherein the diluting liquid comprises a solvent selected from a polar or non-polar solvent. 9. The method of claim 1 , wherein the liquid coloring composition comprises at least one metallic salt as a first coloring agent. 10. The method of claim 9 , wherein the diluting liquid comprises a second coloring agent. 11. The method of claim 10 , wherein the second coloring agent of the diluting liquid has a metallic salt concentration that is less than a metallic salt concentration of the first coloring agent in the liquid coloring composition. 12. The method of claim 1 , wherein the porous ceramic body is a zirconia ceramic body. 13. The method of claim 1 , comprising fully infiltrating the porous ceramic body with the diluting liquid and removing a first volume of the diluting liquid from the porous ceramic body, wherein a second volume of the diluting liquid occupies the first porous region. 14. The method of claim 1 , wherein the casing material is a polymeric material. 15. A method of coloring a ceramic body for use in dental applications, comprising: a. positioning a porous ceramic body within an enclosure of an infiltration apparatus formed by a side wall and a bottom comprising a casing material, wherein the porous ceramic body comprises a side surface, a first end surface adjacent a first porous region, and a second end surface adjacent a second porous region opposite the first end surface, wherein the bottom and the side wall of the enclosure contact the second end surface and side surface of the porous ceramic body; b. providing a volume of a diluting liquid within the enclosure on the first end surface of the porous ceramic body; c. infiltrating the diluting liquid through the first end surface of the ceramic body into a first porous region of the porous ceramic body, wherein the casing material prevents the diluting liquid from passing through the second end surface and the side surface of the porous ceramic body; d. inverting the porous ceramic body within the enclosure, wherein the first end surface is in contact with the bottom of the enclosure, and the side wall of the enclosure conform to and contact the side surface; e. providing a volume of a liquid coloring composition comprising a liquid component and a coloring agent within the enclosure on the second end surface; f infiltrating the liquid coloring composition through the second end surface into a second porous region that is adjacent the first porous region, wherein the casing material prevents the diluting liquid and liquid coloring composition from passing through the first end surface and the side surface of the porous ceramic body; g. contacting a portion of the liquid coloring composition in the second porous region with a portion of the diluting liquid in the first porous region, and then mixing to form a color gradient region having a concentration of coloring agent that decreases from the second porous region to the first porous region; h. optionally, drying the infiltrated ceramic body, and bisquing, the infiltrated porous ceramic block; i. optionally, shaping the infiltrated porous ceramic block; and j sintering to form a sintered ceramic body comprising a first color region adjacent a first end surface, a second color region adjacent the second end surface, and a color gradient region there between. 16. The method of claim 15 , comprising unidirectionally infiltrating the diluting liquid from the first end surface into the first porous region, and unidirectionally infiltrating the liquid coloring composition from the second end surface into the second porous region, wherein the diluting liquid and the liquid coloring composition are infiltrated sequentially. 17. The method of claim 15 , wherein when the porous ceramic body is positioned in the infiltration apparatus, the first porous region is above the second porous region and the diluting liquid is infiltrated from the first end surface downwardly into the first porous region, and upon inverting the porous ceramic body, the second porous region is above the first porous region and the liquid coloring composition is infiltrated from the second end surface downwardly into the second porous region. 18. The metho