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The invention relates to a piston ring which is produced from a carrier material, especially steel or a cast material. The piston ring has a wear-resistant coating from a periodic multilayer system, every periodicity consisting of at least two individual metal nitride layers. Adjacent individual lay

The invention relates to a piston ring which is produced from a carrier material, especially steel or a cast material. The piston ring has a wear-resistant coating from a periodic multilayer system, every periodicity consisting of at least two individual metal nitride layers. Adjacent individual layers within the periodicity have different metallic elements. The thickness of an individual layer is ≧15 nm.

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1. A piston ring made of a carrier material of steel or a cast material, and with a wear-resistant coating made of a periodic multilayer system,with each periodicity consisting of at least two individual layers of metal nitrides, whereinadjoining layers within a periodicity have different metallic e

1. A piston ring made of a carrier material of steel or a cast material, and with a wear-resistant coating made of a periodic multilayer system,with each periodicity consisting of at least two individual layers of metal nitrides, whereinadjoining layers within a periodicity have different metallic elements and that the thickness of an individual layer amounts to >15 nm, whereinat least after one or several periodicities between two adjacent periodicities at least one interlayer and no layer other than the at least one interlayer is provided, wherein the at least one interlayer is made of at least one metal from the group of Ti, Zr, Hf, V, Nb, Ta, Cr, Mo and W, whereinadjoining individual layers within a periodicity each include at least one doping element selected from the group consisting of aluminum, silicon, and carbon; and whereinthe adjoining individuals layers are not doped with the same element from the group consisting of aluminum, silicon, and carbon. 2. Piston ring in accordance with claim 1, wherein the individual layers contain nitrides of at least one metal from the group of Ti, Zr, Hf, V, Nb, Ta, Cr, Mo and W. 3. Piston ring in accordance with claim 1, wherein at least one individual layer of the periodicity is made of CrN. 4. Piston ring in accordance with claim 1, wherein each periodicity consists of individual layers made of CrN and TiN (CrN/TiN), CrN and ZrN (CrN/ZrN) or CrN and VN (CrN/VN). 5. Piston ring in accordance with claim 1, wherein at least one of the adjoining individual layers of the periodicity contains >0 to 15 weight percent of the at least one doping element selected from the group consisting of aluminum, silicon and carbon. 6. Piston ring in accordance with claim 1, wherein at least one of the individual layers of the periodicity contains nitrides of at least two metals from the group of Ti, Zr, Hf, V, Nb, Ta, Cr, Mo and W, with adjoining individual layers differing from each other in at least one metallic element. 7. Piston ring in accordance with claim 6, wherein at least one individual layer of the periodicity includes Ti—Zr—N, Ti—Al—N, Cr—Si—N, Cr—Zr—N, Cr—Ti—N or Cr—V—N. 8. Piston ring in accordance with claim 1, wherein at least one undercoating is provided between the carrier material and the wear-resistant layer. 9. Piston ring in accordance with claim 8, wherein the undercoating consists of at least one of the metals from the group of Ti, Zr, Hf, V, Nb, Ta, Cr, Mo and W. 10. Piston ring in accordance with claim 1, wherein the thickness of a periodicity amounts to 30 nm to 1 μm. 11. Piston ring in accordance with claim 10, wherein the thickness of an individual layer amounts to 15 nm to 150 nm. 12. Piston ring in accordance with claim 11, wherein the thickness of the multilayer system amounts to 10 μm to 50 μm. 13. Piston ring in accordance with claim 12, wherein the multilayer system is applied by means of a PVD process. 14. Piston ring in accordance with claim 12, wherein the multilayer system is applied by means of an electric arc process. 15. Piston ring in accordance with claim 12, wherein the multilayer system is applied by means of a CVD process. 16. Piston ring in accordance with claim 10, wherein the thickness of a periodicity amounts to 60 nm to 120 nm. 17. Piston ring in accordance with claim 12, wherein the thickness of the multilayer system amounts to 10 μm to 30 μm. 18. A piston ring made of a carrier material of steel or a cast material, and with a wear-resistant coating made of a periodic multilayer system,with each periodicity consisting of at least two individual layers of metal nitrides, whereinadjoining layers within a periodicity have different metallic elements and that the thickness of an individual layer amounts to ≧15 nm, whereinadjoining individual layers within a periodicity each include at least one doping element selected from the group consisting of aluminum, silicon, and carbon; and whereinthe adjoining individuals layers are not doped with the same element from the group consisting of aluminum, silicon, and carbon.