Method for marking workpieces, and workpiece

The invention claimed is: 1. A method for marking workpieces, the method comprising: providing a blank; applying an identification comprising a phosphor to the blank in places; and after applying the identification to the blank, deforming the blank to form a metal body, wherein deforming the blank comprises rolling so that a relative change in thickness of the blank is larger than a relative change in width of the blank when the metal body is formed, wherein the identification remains on the metal body at least until after deforming the blank and is not destroyed by deforming the blank, and wherein the identification, both to the blank and to the metal body, has at least one of a difference in reflection, a difference in remission or an albedo difference of at least 15 percentage points in at least part of at least one of a near ultraviolet spectral region, a visible spectral region or a near-infrared spectral region. 2. The method according to claim 1 , further comprising, after deforming the blank, tempering or annealing the metal body so that the metal body comprising the identification is heated to a temperature of at least 350° C. for a time period of at least one hour, wherein, while deforming the blank, the identification is completely pressed into the blank, and wherein the identification differs both from the blank and from the metal body before deforming the blank and after tempering or annealing in a machine-readable manner at least in the near ultraviolet spectral region, the visible spectral region or the near-infrared spectral region. 3. The method according to claim 1 , wherein applying the identification comprises applying the identification at least at both ends of the blank and on two opposite sides of the blank, and wherein the identification differs both from the blank and from the metal body, before deforming the blank and after tempering or annealing, in a machine-readable manner in the visible spectral region. 4. The method according to claim 1 , wherein the thickness is changed by at least a factor of 1.5 and the width is changed by at most a factor of 1.001 while deforming the blank, and wherein, after deforming the blank, the metal body has a length of at least 250 m. 5. The method according to claim 1 , wherein applying the identification comprises applying the identification periodically over an entire length of the blank. 6. The method according to claim 1 , wherein the identification is formed by at least one contiguous identification region, and wherein the at least one identification region has an average extent of at least 20 times a mean diameter of pigments of the identification. 7. A method for marking workpieces, the method comprising: providing a blank; applying an identification to the blank in places; and after applying the identification to the blank, deforming the blank to form a metal body, wherein deforming the blank comprises rolling so that a relative change in thickness of the blank is larger than a relative change in width of the blank when the metal body is formed, wherein the identification remains on the metal body at least until after deforming the blank and is not destroyed by deforming the blank, wherein the identification, both to the blank and to the metal body, has at least one of a difference in reflection, a difference in remission or an albedo difference of at least 15 percentage points in at least part of at least one of a near ultraviolet spectral region, a visible spectral region or a near-infrared spectral region, wherein the identification comprises at least one phosphor causing the difference in reflection, the difference in remission or the albedo difference, wherein the identification comprises a light-permeable, inorganic matrix material which seals the phosphor at least after deforming the blank, and wherein the identification is fastened to the blank and to the metal body by the matrix material. 8. The method according to claim 7 , wherein, while deforming the blank, the identification is completely pressed into the blank. 9. The method according to claim 7 , further comprising, after deforming the blank, tempering or annealing the metal body so that the metal body comprising the identification is heated to a temperature of at least 350° C. for a time period of at least one hour. 10. The method according to claim 7 , wherein applying the identification comprises applying the identification at least at both ends of the blank and on two opposite sides of the blank, and wherein the identification differs both from the blank and from the metal body, before deforming the blank and after tempering or annealing, in a machine-readable manner in the visible spectral region. 11. The method according to claim 7 , wherein the thickness is changed by at least a factor of 1.5 and the width is changed by at most a factor of 1.001 while deforming the blank, and wherein, after deforming the blank, the metal body has a length of at least 250 m. 12. The method according to claim 7 , wherein applying the identification comprises applying the identification periodically over an entire length of the blank. 13. A method for marking workpieces, the method comprising: providing a blank; applying an identification to the blank in places; and after applying the identification to the blank, deforming the blank to form a metal body, wherein deforming the blank comprises rolling so that a relative change in thickness of the blank is larger than a relative change in width of the blank when the metal body is formed, wherein the identification remains on the metal body at least until after deforming the blank and is not destroyed by deforming the blank, wherein the identification, both to the blank and to the metal body, has at least one of a difference in reflection, a difference in remission or an albedo difference of at least 15 percentage points in at least part of at least one of a near ultraviolet spectral region, a visible spectral region or a near-infrared spectral region, wherein the identification, viewed in plan view, is formed by a plurality of punctiform, island-shaped subregions having an average diameter of at most 50 μm, wherein the identification, seen in plan view and all subregions taken together, has a mean extension of at least 20 times the average diameter, and wherein a mean roughness of a surface of the workpiece at the identification deviates from a mean roughness of remaining regions of the surface of the workpiece by at most a factor of 2. 14. The method according to claim 13 , wherein the identification comprises at least one phosphor causing at least one of the difference in reflection, the difference in remission or the albedo difference, wherein the identification comprises a light-permeable, inorganic matrix material which seals the phosphor at least after deforming the blank, and wherein the identification is fastened to the blank and to the metal body by the matrix material. 15. The method according to claim 14 , wherein the matrix material partially breaks while deforming the blank and is subsequently melted again in order to seal the phosphor, and wherein the phosphor has a greater hardness than the blank, the metal body and a rolling tool. 16. The method according to claim 13 , wherein, while deforming the blank, the identification is completely pressed into the blank. 17. The method according to claim 13 , further comprising, after deforming the blank, tempering or annealing the metal body so that the metal body comprising the identification is heated