Finish-pressed/final-sintered blanking die and method for producing same

The invention claimed is: 1. A ready-to-use ceramic blanking die as an indexable insert prepared by the process of: sintering a blank to form a sinter skin, wherein the blank comprises: an upper face; a lower face; wherein each of said upper and lower faces have a support surface for installation in a tool holder of a cutting tool; lateral surfaces which connect the upper face and lower face, the lateral surfaces having cutting edges for machining of workpieces by cutting; arranging a peripheral working face adjacent to the cutting edges, wherein the working face borders the support surface such that the lateral surfaces, the cutting edges and the working face comprise the sinter skin, wherein the sinter skin has not been damaged during a material-removing machining; wherein only the support surfaces are subjected to a material-removing machining and do not consist of the sinter skin, and wherein the blanking die conforms to a dimensional accuracy according to the M tolerance of ISO1382 or the blanking die conforms to a dimensional accuracy according to the G tolerance of ISO1382. 2. The blanking die according to claim 1 , wherein the support surfaces have a clamping recess. 3. The blanking die according to claim 2 , wherein the clamping recesses have a spherical or circular elevation at the center thereof and the elevation is situated above the bottom of the recess, and wherein the elevation has a highest point situated below the support surface. 4. The blanking die according to claim 1 , wherein the blanking die comprises a ceramic cutting material selected from the group consisting of α-SiAlONe, β-SiAlONe, β-Si 3 N 4 , a mixed ceramic and zirconia-toughened alumina. 5. A method for manufacturing a ceramic blanking die according to claim 1 comprising the steps of sintering a blank to form a sinter skin, wherein the blank comprises: an upper face; a lower face; wherein each of said upper and lower faces have a support surface for installation in a tool holder of a cutting tool; lateral surfaces which connect the upper face and lower face, the lateral surfaces having cutting edges for machining of workpieces by cutting; and arranging a peripheral working face adjacent to the cutting edges, wherein the working face borders the support surface such that the lateral surfaces; wherein the cutting edges and the working face comprise the sinter skin, wherein the sinter skin has not been damaged during a material-removing machining; and subjecting the support surfaces to a material-removing machining step, wherein the blanking die conforms to a dimensional accuracy according to the M tolerance of ISO1382 or the blanking die conforms to a dimensional accuracy according to the G tolerance of ISO1382. 6. The blanking die according to claim 5 , wherein the support surfaces have a clamping recess. 7. The blanking die according to claim 6 , wherein the clamping recesses have a spherical or circular elevation at the center thereof and the elevation is situated above the bottom of the recess, and wherein the elevation has a highest point situated below the support surface. 8. The blanking die according to claim 1 , wherein the blanking die comprises a ceramic cutting material selected from the group consisting of α-SiAlONe, β-SiAlONe, β-Si 3 N 4 , a mixed ceramic and zirconia-toughened alumina. 9. A method for manufacturing a ceramic blanking die according to claim 1 , comprising the steps of preparing a blank and having an upper face and a lower face, each having a support surface, for installation in a tool holder of a cutting tool, having lateral surfaces connecting the upper and lower faces and having cutting edges for machining of workpieces by cutting, for manufacturing a blanking die, wherein a peripheral working face is arranged adjacent to the cutting edges and the working face borders the support surface, bringing the blank of the blanking die is brought to the desired shape by precision pressing before sintering, and sintering the blank; and subsequently subjecting only the support surfaces to a material-removing treatment, wherein the support surface are designed to be elevated with respect to the working faces before sintering; wherein the blank comprises a cutting material selected from the group consisting of α-SiAlONe, β-SiAlONe, β-Si3N4, a mixed ceramic and zirconia-toughened alumina; and wherein the ceramic cutting materials are mixed to form a pressable composition which has a high pourability and a constant mold filling capacity, such that the angle of repose characterizing the pour ability of the composition is to be set at ≦35°. 10. The method according to claim 9 , wherein the support surface is designed to be elevated by less than 2 mm with respect to the working faces. 11. The method according to claim 10 , further comprising the step of pressing a clamping recess into the support surface of the upper face/or the lower face. 12. The method according to claim 9 , wherein the blank comprises said α-zirconia-toughened alumina. 13. A method for manufacturing a ceramic blanking die according to claim 1 , comprising the steps of preparing a blank and having an upper face and a lower face, each having a support surface, for installation in a tool holder of a cutting tool, having lateral surfaces connecting the upper and lower faces and having cutting edges for machining of workpieces by cutting, for manufacturing a blanking die, wherein a peripheral working face is arranged adjacent to the cutting edges and the working face borders the support surface, bringing the blank of the blanking die is brought to the desired shape by precision pressing before sintering, and sintering the blank; and subsequently subjecting only the support surfaces to a material-removing treatment, wherein the support surface are designed to be elevated with respect to the working faces before sintering; wherein the blank comprises a cutting material selected from the group consisting of α-SiAlONe, β-SiAlONe, β-Si3N4, a mixed ceramic and zirconia-toughened alumina, and wherein before sintering press flashes on the blank are removed without damaging the edges of the blank. 14. The method according to claim 10 , wherein the different pressing and shrinkage properties of different batches of the composition are taken into account such that the green density shrinkage characteristic of each batch is determined by pressing and sintering tests and the required finishing green density is defined based on these results and this finishing green density is set as the ideal value for the green density of the blanks in setting the presses. 15. The method according to claim 10 , wherein a gas exchange between the furnace atmosphere and a crucible interior in which the blanks are sintered is minimized during sintering and only crucible materials that are inert with respect to the blanks are provided.