Coatings for forming tools

The invention claimed is: 1. A hot sheet metal forming process for manufacturing a work piece, comprising: forming a forming tool by depositing a hard coating that comprises at least one a-C:H:W coating layer onto a substrate by sputtering at least one WC-containing target in a carbon-containing atmosphere, and topping the at least one a-C:H:W layer with an a-C:H:W run-in layer deposited in a carbon-containing atmosphere with an increasing carbon content; using the forming tool to manufacture the work piece; and exposing the hard coating to temperatures above 500° C. during the forming process; wherein the work piece is an ultra-high strength metal sheet able to exhibit, after processing, a tensile strength of around 1500 MPa or more. 2. The hot sheet metal forming process according to claim 1 , wherein the at least one a-C:H:W hard layer is deposited as an outermost layer. 3. The hot sheet metal forming process according to claim 1 , wherein the at least one a-C:H:W hard layer is deposited as a functional layer. 4. The hot sheet metal forming process according to claim 1 , further comprising at least one interlayer deposited between the substrate and the hard coating which improves adhesion of the hard coating to the substrate. 5. The hot sheet metal forming process according to claim 1 , wherein the work piece is a metal sheet coated with a Zn coating or an AlSi coating. 6. The hot sheet metal forming process according to claim 1 , wherein the work piece is a metal sheet of the type 22MnB5. 7. The hot sheet metal forming process according to claim 1 , wherein the carbon-containing atmosphere is a mixed argon/acetylene atmosphere comprising more acetylene than argon. 8. The hot sheet metal forming process according to claim 1 , wherein the at least one WC-containing target comprises about 6% Ni in atomic percentage. 9. The hot sheet metal forming process according to claim 1 , comprising depositing the at least one a-C:H:W coating at a process temperature or substrate temperature lower than 150° C. 10. The hot sheet metal forming process according to claim 1 , comprising using at least one pure chromium target for depositing a chromium interlayer as adhesion layer between the substrate and the at least one a-C:H:W layer. 11. The hot sheet metal forming process according to claim 1 , comprising applying a bias voltage lower than 300 V during deposition of the at least one a-C:H:W layer.