A blade includes an airfoil section extending between leading and trailing edges, first and second opposed sides each joining the leading and trailing edges, and an inner end and a free tip end. The airfoil section is formed of a metal-based material with a polymeric overcoat on at least one of the
A blade includes an airfoil section extending between leading and trailing edges, first and second opposed sides each joining the leading and trailing edges, and an inner end and a free tip end. The airfoil section is formed of a metal-based material with a polymeric overcoat on at least one of the leading edge, trailing edge, first side and second side. The airfoil section includes an abrasive tip at the free tip end. The abrasive tip has a composition selected with respect to heat-induced delamination of the polymeric overcoat from frictional heat generated during rubbing of the abrasive tip.
대표청구항▼
1. A blade comprising: an airfoil section extending between leading and trailing edges, first and second opposed sides each joining the leading and trailing edges, and an inner end and a free tip end, the airfoil section being formed of a metal-based material with a polymeric overcoat on at least on
1. A blade comprising: an airfoil section extending between leading and trailing edges, first and second opposed sides each joining the leading and trailing edges, and an inner end and a free tip end, the airfoil section being formed of a metal-based material with a polymeric overcoat on at least one of the leading edge, trailing edge, first side and second side,the airfoil section including an abrasive tip at the free tip end, andthe abrasive tip having a composition selected with respect to heat-induced delamination of the polymeric overcoat from frictional heat generated during rubbing of the abrasive tip, wherein the abrasive tip includes a metal matrix and hard particles dispersed through the metal matrix, and the metal matrix is a eutectic aluminum-silicon alloy and the hard particles include at least one of alumina or zirconia. 2. The blade as recited in claim 1, wherein the metal matrix and the metal-based material are compositionally composed of the same predominant metal. 3. The blade as recited in claim 1, wherein the metal matrix of the abrasive tip interfaces with the metal-based material. 4. The blade as recited in claim 1, wherein the hard particles include alumina. 5. The blade as recited in claim 1, wherein the hard particles include zirconia. 6. The blade as recited in claim 1, wherein the abrasive tip includes, by volume, 0.1-50% of the hard particles. 7. The blade as recited in claim 1, wherein the abrasive tip includes, by volume, 5-15% of the hard particles. 8. The blade as recited in claim 1, wherein the abrasive tip has a thickness in a thickness range of 0.025-1.3 millimeters, and the hard particles have an average maximum dimension in a particle size range of 10-200 micrometers but not exceeding the thickness. 9. The blade as recited in claim 1, wherein the hard particles are faceted. 10. The blade as recited in claim 1, further comprising a bonding agent selected from the group consisting of a metallic bond coat, a polymeric material, and combinations thereof. 11. The blade as recited in claim 10, wherein the bonding agent includes the polymeric material, the polymeric material forming a layer having a thickness of 0.0254-3.175 millimeters. 12. The blade as recited in claim 1, wherein the hard particles include tetragonal zirconia distributed throughout alumina grains. 13. The blade as recited in claim 12, wherein the abrasive tip has a thickness in a thickness range of 0.025-1.3 millimeters, and the hard particles have an average maximum dimension in a particle size range of 10-200 micrometers but not exceeding the thickness. 14. The blade as recited in claim 12, wherein the hard particles protrude from the metal matrix. 15. The blade as recited in claim 12, wherein the abrasive tip includes, by volume, 5-15% of the hard particles. 16. The blade as recited in claim 1, wherein the hard particles include diamond. 17. A gas turbine engine comprising: a compressor section;a combustor in fluid communication with the compressor section;a turbine section in fluid communication with the combustor;a fan rotatably coupled with the turbine section, the fan including a plurality of circumferentially-spaced rotatable blades, each of the plurality of circumferentially-spaced rotatable blades including an airfoil section extending between leading and trailing edges, first and second opposed sides each joining the leading and trailing edges, and an inner end and a free tip end, the airfoil section being formed of a metal-based material with a polymeric overcoat on at least one of the leading edge, trailing edge, first side and second side, and each airfoil section including an abrasive tip at the free tip end; anda seal circumscribing the plurality of circumferentially-spaced rotatable blades, the seal being contactable with, and abradable by, the abrasive tip, wherein respective compositions of the seal and the abrasive tip are complimentarily selected with respect to frictional heat generated and heat-induced delamination of the polymeric overcoat, wherein the abrasive tip includes a metal matrix and hard particles dispersed through the metal matrix, and the metal matrix is a eutectic aluminum-silicon alloy and the hard particles include at least one alumina or zirconia. 18. A fan rotor system comprising: a plurality of circumferentially-spaced rotatable blades, each of the plurality of circumferentially-spaced rotatable blades including an airfoil section extending between leading and trailing edges, first and second opposed sides each joining the leading and trailing edges, and an inner end and a free tip end, the airfoil section being formed of a metal-based material with a polymeric overcoat on at least one of the leading edge, trailing edge, first side and second side, and each airfoil section including an abrasive tip at the free tip end, wherein the abrasive tip includes a metal matrix and hard particles dispersed through the metal matrix, and the metal matrix is a eutectic aluminum-silicon alloy and the hard particles include at least one of the alumina or zirconia; anda seal circumscribing the plurality of circumferentially-spaced rotatable blades, the seal being contactable with, and abradable by, the abrasive tip, wherein respective compositions of the seal and the abrasive tip are complimentarily selected with respect to frictional heat generated and heat-induced delamination of the polymeric overcoat. 19. The fan rotor system as recited in claim 18, wherein the metal matrix and the metal-based material are compositionally composed of the same predominant metal. 20. The fan rotor system as recited in claim 18, wherein the metal-based material is a eutectic aluminum-silicon alloy.
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이 특허에 인용된 특허 (8)
Benoit Roland (Lake Park FL) Beverly Eugene M. (Palm Beach Gardens FL) Love Charles M. (Jupiter FL) Mack Gregory J. (Palm Beach Gardens FL), Abrasive blade tip.
Brown Lawrence E. (Indianapolis IN) Clingman David L. (Carmel IN) Barber Michael J. (Martinsville IN) Cross Kenneth R. (Lebanon IN), Abrasive blade tips for cast single crystal gas turbine blades.
Schaefer Robert P. (East Hartford CT) Rutz David A. (Glastonbury CT) Lee Edward (Higganum CT) Johnson Edward J. (Middletown CT), Abrasive material, especially for turbine blade tips.
Mltgen Paul (Laufenburg DEX) Ltte Martin (Murg DEX) Glaisner Karlheinz (Bad Sckingen DEX) Siebold Herbert (Grwihl DEX), Process for producing homogeneous structure abrasives.
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