Coating additive

What is claimed is: 1. A coated article, comprising: a metallic substrate; and a coating layer on an outer surface of the substrate, the coating layer having a chromium nitride material and an additive of a molybdenum-chromium alloy; wherein the chromium nitride material is formed from a plurality of powder particles each having a core and an outer nickel layer, the core being formed from an intermediate layer of CrN cooperating with a Cr 2 N powder particle. 2. The coated article of claim 1 , wherein the metallic substrate is a piston ring comprising an annular body. 3. The coated article of claim 2 , wherein the coating layer is applied to a radially outer periphery of the annular body. 4. The coated article of claim 1 , wherein the coating layer is thermally sprayed onto the metallic substrate. 5. The coated article of claim 1 , wherein the coating layer comprises about 60% wt chromium nitride, and about 40% wt molybdenum-chromium. 6. The coated article of claim 1 , wherein the coating layer is about 50-90 wt % chromium nitride. 7. The coated article of claim 6 , wherein the coating layer is about 70 wt % chromium nitride. 8. The coated article of claim 1 , wherein the coating layer defines a typical coating thickness of 150 μm. 9. The coated article of claim 1 , wherein the coating layer is at least 20% wt molybdenum chromium. 10. The coated article of claim 9 , wherein the coating layer is no more than 80% wt molybdenum chromium. 11. The coated article of claim 9 , wherein the coating layer comprises an agglomerated and sintered molybdenum-chromium material. 12. The coated article according to claim 1 , wherein the molybdenum-chromium alloy powder contains 15-55 wt. % chromium. 13. The coated article according to claim 1 , wherein the molybdenum-chromium alloy powder comprises 65 wt. % molybdenum and 35 wt. % chromium. 14. The coated article according to claim 1 , wherein the molybdenum-chromium alloy is interspersed throughout the chromium nitride material. 15. A piston ring comprising an annular body having an outer radial periphery, the outer radial periphery having a wear resistant coating having a chromium nitride material and an additive of a molybdenum-chromium alloy, wherein the chromium nitride material is formed from a plurality of powder particles each having a core and an outer nickel layer applied with the additive by thermal spray deposition, the wear resistant coating comprising about 60 wt % chromium nitride and about 40 wt % molybdenum chromium alloy; a coating layer on an outer surface of the substrate, the coating layer having a chromium nitride material and an additive of a molybdenum-chromium alloy; wherein the chromium nitride material is formed from a plurality of powder particles each having a core and an outer nickel layer, the core being formed from an intermediate layer of CrN cooperating with a Cr 2 N powder particle. 16. The piston ring according to claim 15 , wherein the molybdenum-chromium alloy powder contains 15-55 wt. % chromium. 17. The piston ring according to claim 15 , wherein the molybdenum-chromium alloy powder comprises 65 wt. % molybdenum and 35 wt. % chromium. 18. A wear resistant coating for protecting a surface, comprising: a material of one of chromium nitride, chromium carbide, tungsten carbide, and chromium silicide; and an additive of a molybdenum-chromium alloy; wherein the material is formed from a powder, the particles of which each has a core and an outer nickel layer, the core being formed from an intermediate layer of CrN cooperating with a Cr 2 N powder particle, the powder being applied with the additive in the form of a molybdenum-chromium alloy powder by thermal spraying. 19. The wear resistant coating of claim 18 , wherein the powder comprises about 60 wt % chromium nitride, and about 40 wt % molybdenum-chromium alloy powder. 20. The wear resistant coating of claim 18 , wherein the powder comprises chromium nitride powder and a molybdenum-chromium alloy powder. 21. The wear resistant coating of claim 20 , wherein the powder comprises between 20 and 80% wt chromium nitride, and between 80 and 20% wt molybdenum-chromium alloy powder. 22. The wear resistant coating according to claim 18 , wherein the molybdenum-chromium alloy powder contains 15-55 wt. % chromium. 23. The wear resistant coating according to claim 18 , wherein the molybdenum-chromium alloy powder comprises 65 wt. % molybdenum and 35 wt. % chromium.