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An airfoil comprises a substrate, a residual abrasive coating and a supplemental abrasive coating. The substrate extends along a tip section of the airfoil, from a leading edge to a trailing edge. The residual abrasive coating comprises a two-phase abrasive and metal matrix material bonded to the su

An airfoil comprises a substrate, a residual abrasive coating and a supplemental abrasive coating. The substrate extends along a tip section of the airfoil, from a leading edge to a trailing edge. The residual abrasive coating comprises a two-phase abrasive and metal matrix material bonded to the substrate, on the tip section of the airfoil. The supplemental abrasive coating comprises a two-phase abrasive and metal matrix material bonded to the residual abrasive coating and to the substrate adjacent the residual abrasive coating, on the tip section of the airfoil. The supplemental abrasive coating restores the airfoil to a nominal tip height in the tip section.

대표청구항 ▼

1. An airfoil comprising: a substrate, the substrate extending along a tip section of the airfoil from a leading edge to a trailing edge; anda residual abrasive coating on the tip section of the airfoil, the residual abrasive coating comprising a two-phase abrasive and metal matrix material bonded t

1. An airfoil comprising: a substrate, the substrate extending along a tip section of the airfoil from a leading edge to a trailing edge; anda residual abrasive coating on the tip section of the airfoil, the residual abrasive coating comprising a two-phase abrasive and metal matrix material bonded to the substrate;a supplemental abrasive coating on the tip section of the airfoil, the supplemental abrasive coating comprising a two-phase abrasive and metal matrix material bonded to the residual abrasive coating and to the substrate adjacent the residual abrasive coating;wherein the supplemental abrasive coating restores the tip section of the airfoil to a nominal tip height. 2. The airfoil of claim 1, wherein the residual abrasive coating and the supplemental abrasive coating each comprise discrete boron nitride particles embedded in a continuous metal matrix. 3. The airfoil of claim 1, wherein the substrate comprises an unwelded metal alloy in the tip section. 4. The airfoil of claim 1, wherein the substrate comprises a single crystal metal alloy or a directionally solidified metal alloy in the tip section. 5. The airfoil of claim 1, wherein the residual abrasive coating exhibits a wear feature, such that the residual abrasive coating has less than a nominal thickness along the tip section. 6. The airfoil of claim 5, wherein the supplemental abrasive coating restores the nominal thickness along across the tip region, from the leading edge to the trailing edge. 7. The airfoil of claim 1, wherein the substrate adjacent the residual abrasive coating has a wear feature, such that the substrate has less than a nominal height along the tip section. 8. The airfoil of claim 7, wherein the supplemental abrasive coating restores the airfoil to the nominal height across the tip section, from the leading edge to the trailing edge. 9. The airfoil of claim 1, wherein the supplemental abrasive coating provides reduced average reaction loading due to rubbing, as compared to the residual abrasive coating. 10. The airfoil of claim 1, wherein the supplemental abrasive coating provides reduced average wear due to rubbing, as compared to the residual abrasive coating. 11. A method comprising: surface treating a residual abrasive coating, the residual abrasive coating comprising abrasive particles in a metal matrix material bonded to an airfoil substrate;surface treating the airfoil substrate adjacent the residual abrasive coating;applying a supplemental abrasive coating to the residual abrasive coating, the supplemental abrasive coating comprising abrasive particles in a metal matrix material; andapplying the supplemental abrasive coating to the airfoil substrate adjacent the residual abrasive coating;wherein the supplemental abrasive coating is bonded to the residual abrasive coating and to the airfoil substrate adjacent the residual abrasive coating. 12. The method of claim 11, wherein the residual abrasive coating includes a wear feature, such that the residual abrasive coating has less than a nominal thickness in a tip region of the airfoil substrate. 13. The method of claim 12, wherein applying the supplemental abrasive coating restores a nominal abrasive coating thickness across the tip region, from a leading edge of the airfoil substrate to a trailing edge of the airfoil substrate. 14. The method of claim 11, wherein the airfoil substrate adjacent the residual abrasive coating includes a wear feature, such that the airfoil substrate has less than a nominal substrate height in a tip region. 15. The method of claim 14, further comprising determining a depth of the wear feature, wherein the depth does not extend below a minimum height of the airfoil substrate. 16. The method of claim 15, further comprising machining the airfoil substrate to remove the wear feature. 17. The method of claim 16, wherein applying the supplemental abrasive coating restores a nominal tip height across the tip region, from a leading edge of the airfoil substrate to a trailing edge of the airfoil substrate. 18. The method of claim 11, wherein the residual abrasive coating and the supplemental abrasive coating each comprise boron nitride particles in a discrete phase and a metal matrix material in a continuous phase. 19. The method of claim 11, wherein the steps of applying the supplemental abrasive coating comprise electroplating the supplemental abrasive coating to the residual abrasive coating and to the airfoil substrate adjacent the residual abrasive coating. 20. The method of claim 11, wherein the supplemental abrasive coating is applied to an unwelded tip region of the airfoil substrate.