Controlling of sintering kinetics of oxide ceramics

The invention claimed is: 1. Process for the manufacture of a multi-layer oxide ceramic body having at least two different layers which body can be sintered without distortion, wherein the process comprises (a) providing at least a first oxide ceramic material and a second oxide ceramic material, wherein the first oxide ceramic material and the second oxide ceramic material differ in terms of a sintering behavior and wherein at least one of the oxide ceramic materials comprises one or more coloring elements; and (b) equalizing a sintering behavior of the first oxide ceramic material to a sintering behavior of the second oxide ceramic material by coating at least one of the oxide ceramic materials with a dopant, wherein in each case the sintering behavior is the relative linear shrinkage upon sintering at a temperature in the range of 850 to 1350° C. 2. Process according to claim 1 , wherein the body is suitable for the manufacture of a multi-unit dental restoration comprising two or more units. 3. Process according to claim 1 , wherein the at least two different layers differ in terms of chemical composition. 4. Process according to claim 1 , wherein the at least two different layers have different colors and wherein the colors are in the range of the colors of natural teeth. 5. Process according to claim 1 , wherein the sintering behavior is the relative linear shrinkage upon sintering at a temperature in the range of 900 to 1200° C. 6. Process according to claim 1 , wherein in step (a) the sintering behavior of the first oxide ceramic material and the sintering behavior of the second oxide ceramic material differ by at least 0.15%. 7. Process according to claim 1 , wherein in step (b) the equalizing results in the sintering behavior of the first oxide ceramic material and the sintering behavior of the second oxide ceramic material differing by less than 0.15%. 8. Process according to claim 1 , wherein said dopant is selected from sintering aids and sintering inhibitors. 9. Process according to claim 8 , wherein said sintering aids comprise Al 2 O 3 and said sintering inhibitors comprise Y 2 O 3 . 10. Process according to claim 1 , wherein equalizing a sintering behavior of the first oxide ceramic material to a sintering behavior of the second oxide ceramic material further comprises changing a primary and/or secondary particle size and/or a specific surface area of at least a portion of said at least one oxide ceramic material. 11. Process according to claim 1 , wherein equalizing a sintering behavior of the first oxide ceramic material to a sintering behavior of the second oxide ceramic material further comprises subjecting said oxide ceramic materials to different degrees of partial densification. 12. Process according to claim 1 which further comprises (c) forming layers of the oxide ceramic materials and arranging the layers on top of one another or forming a layer of the oxide ceramic materials which comprises a continuous gradient from the first oxide ceramic material to the second oxide ceramic material; (d) optionally compacting or compressing the oxide ceramic materials to obtain a green body; and (e) optionally presintering the oxide ceramic materials to obtain a presintered ceramic blank. 13. Process for the manufacture of a dental restoration, which process comprises preparing a multi-layer oxide ceramic body by the process according to claim 1 and shaping the body to a desired geometry to obtain a shaped ceramic product. 14. Process according to claim 13 , wherein the shaping is carried out by machining. 15. Process according to claim 13 , wherein the shaped ceramic product has the shape of a dental framework, abutment or monolithic full-contour dental restoration. 16. Process according to claim 13 further comprising densely sintering the shaped ceramic product.