TURBINE AIRFOIL WITH SEPARATELY FORMED TIP AND METHOD FOR MANUFACTURE AND REPAIR THEREOF

Abstract
An airfoil for a gas turbine engine, the airfoil having a core body with an airfoil body, an integral partial height squealer tip, and an integral tip cap between the airfoil body and the integral partial height squealer tip; and a squealer tip extension bonded to the partial height squealer tip. A method for manufacture and repair of an airfoil.
Description


BACKGROUND OF THE INVENTION

[0001] This invention relates to airfoils for gas turbine engines having an airfoil body and a separately formed airfoil tip and, more particularly, to airfoils with cast-in tip caps, airfoils with impingement cooled squealer tips, bimetallic airfoils, and methods for making and repairing airfoils.


[0002] Airfoils in gas turbine engines experience durability problems at the tip of the airfoil in the form of cracking due to thermal induced stress and material loss due to oxidation. This can be addressed by using an alloy having increased resistance to environmental oxidation and corrosion. However, it is undesirable to upgrade the entire airfoil to a more thermal-resistant and oxidation-resistant alloy because this increases component cost and perhaps weight.


[0003] Bowden, Jr. et al., U.S. Pat. No. 5,794,338 discloses a blade originally manufactured with a one-piece body of a single superalloy which is removed from service after being damaged. The blade tip is repaired by removing damaged alloy material and replacing it with a different alloy more resistant to environmental oxidation.


[0004] Lee et al., U.S. Pat. No. 5,348,446 discloses an airfoil having a core body of a first alloy and a U-shaped blade tip of a second alloy bonded to a flat roof of the core body.


[0005] Tip wear has also been addressed by increasing cooling efficiency at the tip. Various cooling arrangements are disclosed in Lee et al. U.S. Pat. No. 5,183,385, including impingement cooling of the squealer tip via angled impingement cooling holes in a brazed on tip cap as shown in FIG. 3. Dennis et al., U.S. Pat. No. 3,899,267 discloses an alternative impingement cooling arrangement.



BRIEF SUMMARY OF THE INVENTION

[0006] Briefly, therefore, the invention is directed to an airfoil having a one-piece core body having, upon original manufacture, an airfoil body, an integral partial height squealer tip, an integral tip cap between the airfoil body and the integral partial height squealer tip, and a squealer tip extension bonded to the partial height squealer tip.


[0007] The invention is also directed to an airfoil having a one-piece core body formed from a first superalloy comprising, upon original manufacture, an airfoil body, and an integral tip cap. There is also a squealer tip bonded to the core body upon original manufacture and having at least a portion thereof formed from a second superalloy distinct from the first superalloy. The second superalloy comprises, by approximate weight percent, 0.1 to 0.15 C, 6.0 to 7.0 Cr, 0.01 to 0.02 B, 5.5 to 6.5 Al, 2.5 to 3.5 Re, 4.5 to 5.5 W, 1 to 2 Mo, 11 to 13 Co, 6 to 7 Ta, 1 to 2 Hf, and the balance Ni.


[0008] In another aspect the invention is an airfoil comprising a one-piece core body having an airfoil body, an integral partial height squealer tip, and an integral tip cap between the airfoil body and the integral partial height squealer tip. There is a squealer tip extension bonded to the partial height squealer tip,coolant holes in the integral tip cap which holes are angled to direct coolant toward the squealer tip extension.


[0009] The invention is further directed to an airfoil manufactured by forming a one-piece core body comprising an airfoil body, an integral partial height squealer tip, and an integral tip cap between the airfoil body and the integral partial height squealer tip; by bonding a squealer tip extension to the partial height squealer tip; and by drilling a coolant hole in the tip cap which coolant hole is angled to direct coolant at the squealer tip extension.


[0010] In another aspect the invention is an airfoil of the type having an airfoil body, a tip cap, and a squealer tip, which airfoil is repaired by removing at least a portion of the squealer tip, drilling an impingement coolant hole in the tip cap which coolant hole is angled so as to provide impingement cooling, and replacing the at least a portion of the squealer tip.


[0011] The invention is also a method for manufacturing a gas turbine engine airfoil of the type having an airfoil body, a tip cap having a film coolant hole therein, and a squealer tip. The method is forming a one-piece core body comprising an airfoil body, an integral partial height squealer tip, and an integral tip cap between the airfoil body and the integral partial height squealer tip; and bonding a squealer tip extension to the partial height squealer tip.


[0012] The invention is additionally directed to a method for repairing a gas turbine engine airfoil of the type having an airfoil body, a tip cap, and a squealer tip. The method involves removing at least a portion of the squealer tip, drilling an impingement coolant hole in the tip cap which coolant hole is angled so as to provide impingement cooling, replacing the at least a portion of the squealer tip.


[0013] Other aspects will be in part apparent and in part pointed out hereinafter.







DESCRIPTION OF THE DRAWINGS

[0014]
FIG. 1 is a perspective view of a gas turbine engine airfoil.


[0015]
FIG. 2 is a schematic sectional view of a partially manufactured gas turbine engine airfoil.


[0016]
FIGS. 3 and 4 are schematic sectional views of a gas turbine engine airfoils.


[0017]
FIG. 5 is a prior art airfoil shown schematically and in section.


[0018]
FIG. 6 is a prior art airfoil after a repair operation, shown schematically and in section.







DETAILED DESCRIPTION OF THE INVENTION

[0019] The invention as shown in FIGS. 1, 2 and 3 comprises an airfoil 1 having a core body which includes an airfoil body 10, integral cast-in tip cap 12, and an integral partial height cast-in squealer tip 14. There is also a squealer tip extension 16 which extends upwardly from the cast-in squealer tip.


[0020] In manufacturing the airfoil, an airfoil body 10, tip cap 12, and partial height squealer tip 14 are integrally formed in a single casting as shown in FIG. 2. These form a one-piece core body having an airfoil body, an integral partial height squealer tip, and an integral tip cap between the partial height squealer tip and the airfoil body. Impingement cooling holes 18 are then drilled as by laser drilling or other method into the tip cap 12. The coolant holes are at an angle so as to be directed above the termination of the partial-height squealer tip 14 as shown by dashed line in FIG. 2. The impingement coolant holes provided enhanced cooling.


[0021] A squealer tip extension 16 is bonded to the partial height squealer tip 14 as shown in FIG. 3. The extension may be weld build up or may be a separate casting which is attached by welding, diffusion bonding, or other technique. The squealer tip extension extends only upwardly, as distinguished from the U-shaped component in, e.g., Horvath, U.S. Pat. No. 4,540,339, which lays over the cast-in tip cap in that patent. An advantage to the current configuration versus the '339 configuration is that the current configuration weighs less, because it does not have the effective double tip cap of the '339 configuration.


[0022] One of the advantages of the invention is especially apparent when comparing FIGS. 2 and 3 to prior art FIG. 5. In FIG. 5, where the full length of the squealer tip is cast integrally with the tip cap and the core body, it is evident that angle impingement coolant holes cannot be drilled into the tip cap because the full height of the squealer tip interferes with the line of sight for drilling coolant holes. By having a partial height squealer tip cast-in rather than a full height squealer tip, there is a line of sight for drilling angled impingement coolant holes, as shown by the dashed line in FIG. 2. The technical effect of this is that efficient impingement cooling is imparted to the tip. Furthermore, there is flexibility to form the squealer tip extension 16 from the same alloy as the rest of the blade, or from a different alloy.


[0023] A feature of this invention is that the tip cap is cast-in rather than brazed-on. By casting the tip cap in the body, the further manufacturing operation of brazing as well as brazing surface preparation is avoided. Also, a further joint and its corresponding durability problems are avoided. The invention here of a partial height squealer tip and a separate tip extension advantageously has the technical effect of facilitating the incorporation of the brazed-on tip cap advantage of permitting angled impingement cooling holes into a design which does not have the drawbacks of a brazed-on tip cap.


[0024] One aspect of this invention is the manufacture of at least a portion of the squealer tip from an alloy (a second superalloy) having enhanced resistance to the more extremely oxidative and corrosive conditions encountered by the airfoil tip, relative to the resistance of the alloy (a first superalloy) from which the core body is formed. Examples of advantageous combinations are as follows (nominal composition):
1Combination 1Body (Rene′ 125)Tip (Rene′ 142)C0.1C 0.1-0.15Cr9Cr6.0-7.0Ti2.5Ti<1B0.01B0.01-0.02Al4.8Al5.5-6.5Re2.5-3.5W7W4.5-5.5Mo2.5Mo1-2Co10Co11-13Zr0.05Zr  0-0.03Cb  0-0.5Y  0-0.5Ta3.5Ta6-7Hf1.5Hf1-2V<1NiBalanceNiBalanceCombination 2Body (Rene′ 80)Tip (Rene′ 142)C0.15-0.2 C 0.1-0.15Cr13.5-14.5Cr6.0-7.0Ti4.5-5.5Ti<1B0.01-0.02B0.01-0.02Al2.5-3.5Al5.5-6.5Ti:Al1:1-2:1Re2.5-3.5W3.5-4.5W4.5-5.5Mo3.5-4.5Mo1-2Co 7.5-12.5Co11-13Ta6-7Hf1-2Zr0.005-0.1 Zr 0-0.03Cb 0-0.5y 0-0.5NiBalanceNiBalance“Rene′” is a registered trademark owned by Teledyne Industries, Inc. of Los Angeles, California, USA.


[0025] It has been known to repair damaged blades as shown in FIGS. 5 and 6 by removing all or a portion of a squealer tip and replacing it with a tip of a second alloy more resistant to oxidation and corrosion. However, there are significant advantages to incorporating this second superalloy into the tip of the airfoil upon original manufacture, as opposed to upon repair as shown in FIGS. 5 and 6, or as described in U.S. Pat. No. 5,749,338. In particular, the technical effect of this increase in tip durability upon original manufacture is a reduction in the number of cracks during operation. This increases the repair yield, and reduces the number of components which are irreparably damaged in their first service tour after original manufacture. Also, because oxidative and corrosive deterioration are reduced, tip clearance due to oxidation will be reduced, which results in increased service time between engine removals due to performance degradation attributable to tip clearance.


[0026] A further advantage to manufacturing the tip from a second superalloy is that, as compared to modifying the alloy of the entire airfoil, modifying only the tip alloy results in much less of a weight change, thus minimizing or eliminating concerns about how weight changes affect vibration frequencies or the disk life.


[0027] The invention is shown in FIGS. 2 and 3 with a partial height, for example, roughly half as shown in this particular embodiment, of the squealer tip height formed from the same alloy as the airfoil body and only an extension on the squealer tip formed from a different alloy. In the embodiment shown in FIG. 4, the portion of the squealer tip formed from the second alloy is much greater than half, with as much as the entirety of the squealer tip above the tip cap formed from the second alloy.


[0028] In one embodiment the invention involves repairing a blade originally manufactured with a film-cooled tip cap. A portion or all of the squealer tip is removed. The film cooling holes in the tip cap, which are parallel to the major dimension of the airfoil, like the tip cap hole 22 in FIG. 5, are welded closed or otherwise permanently plugged. New impingement cooling holes like 18 in FIGS. 2 and 3 are drilled, facilitated by partial or complete removal of the squealer tip. And a new squealer tip or squealer tip extension is attached, either as a separate casting which is attached by diffusion bonding, welding, or other technique, or as weld build up.


[0029] As various changes could be made in the above constructions without departing from the scope of the invention, it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.


Claims
  • 1. An airfoil for a gas turbine engine comprising: a one-piece core body formed from a first superalloy comprising, upon original manufacture, an airfoil body, an integral partial height squealer tip, and an integral tip cap between the airfoil body and the integral partial height squealer tip; and a squealer tip extension bonded to the partial height squealer tip.
  • 2. The airfoil of claim 1 wherein the squealer tip extension is formed from a same superalloy as the one-piece core body.
  • 3. The airfoil of claim 1 wherein the squealer tip extension is formed from a second superalloy distinct from the first superalloy.
  • 4. The airfoil of claim 2 further comprising coolant holes in the integral tip cap, which holes are angled to direct coolant exiting said holes toward the squealer tip extension.
  • 5. The airfoil of claim 3 further comprising coolant holes in the integral tip cap, which holes are angled to direct coolant exiting said holes toward the squealer tip extension.
  • 6. An airfoil for a gas turbine engine comprising: a one-piece core body formed from a first superalloy comprising, upon original manufacture, an airfoil body, and an integral tip cap; and a squealer tip bonded to the core body upon original manufacture and having at least a portion thereof formed from a second superalloy distinct from the first superalloy, the second superalloy comprising, by approximate weight percent, 0.1 to 0.15 C, 6.0 to 7.0 Cr, 0.01 to 0.02 B, 5.5 to 6.5 Al, 2.5 to 3.5 Re, 4.5 to 5.5 W, 1 to 2 Mo, 11 to 13 Co, 6 to 7 Ta, 1 to 2 Hf, and the balance Ni.
  • 7. The airfoil of claim 6 comprising a partial height squealer tip between the core body and the at least a portion of the squealer tip comprising the second superalloy, the partial height squealer tip being formed integrally with the core body upon original manufacture.
  • 8. The airfoil of claim 6 wherein the first superalloy comprises, by approximate nominal weight %, 0.1 C, 9 Cr, 2.5 Ti, 0.01 B, 4.8 Al, 7 W, 2.5 Mo, 10 Co, 3.5 Ta, 1.5 Hf.
  • 9. The airfoil of claim 6 wherein the first superalloy comprises, by approximate nominal weight %, 0.15 to 0.2 C, 13.5 to 14.5 Cr, 4.5 to 5.5 Ti, 0.01 to 0.02 B, 2.5 to 3.5 Al, 3.5 to 4.5 W, 3.5 to 4.5 Mo, 7.5 to 12.5 Co, and the balance Ni.
  • 10. The airfoil of claim 7 wherein the first superalloy comprises, by approximate nominal weight %, 0.1 C, 9 Cr, 2.5 Ti, 0.01 B, 4.8 Al, 7 W, 2.5 Mo, 10 Co, 3.5 Ta, 1.5 Hf.
  • 11. The airfoil of claim 7. wherein the first superalloy comprises, by approximate weight %, 0.15 to 0.2 C, 13.5 to 14.5 Cr, 4.5 to 5.5 Ti, 0.01 to 0.02 B, 2.5 to 3.5 Al, 3.5 to 4.5 W, 3.5 to 4.5 Mo, 7.5 to 12.5 Co, and the balance Ni.
  • 12. An airfoil for a gas turbine engine comprising: a one-piece core body formed from a first superalloy comprising, an airfoil body, an integral partial height squealer tip, and an integral tip cap between the airfoil body and the integral partial height squealer tip; a squealer tip extension bonded to the partial height squealer tip; and coolant holes in the integral tip cap which holes are angled to direct coolant exiting said holes toward the squealer tip extension.
  • 13. The airfoil of claim 12 wherein the squealer tip extension is formed from a same superalloy as the one-piece core body.
  • 14. The airfoil of claim 12 wherein the squealer tip extension is formed from a second superalloy distinct from the first superalloy.
  • 15. An airfoil for a gas turbine engine manufactured by a method comprising: forming a one-piece core body comprising an airfoil body, an integral partial height squealer tip, and an integral tip cap between the airfoil body and the integral partial height squealer tip; bonding a squealer tip extension to the partial height squealer tip; and drilling a coolant hole in the tip cap which coolant hole is angled to direct coolant at the squealer tip extension.
  • 16. The airfoil of claim 15 wherein the method comprises drilling the coolant hole prior to the bonding of the squealer tip extension to the partial height squealer tip.
  • 17. An airfoil for a gas turbine engine of the type having an airfoil body, a tip cap, and a squealer tip, the airfoil having been repaired by a method comprising: removing at least a portion of the squealer tip; drilling an impingement coolant hole in the tip cap which coolant hole is angled so as to provide impingement cooling; and replacing said at least a portion of the squealer tip.
  • 18. The airfoil of claim 17 wherein the tip cap comprises a film coolant hole prior to repair and the method comprises plugging the film coolant hole.
  • 19. A method for manufacturing a gas turbine engine airfoil of the type having an airfoil body, a tip cap having a film coolant hole therein, and a squealer tip, the method comprising: forming a one-piece core body comprising an airfoil body, an integral partial height squealer tip, and an integral tip cap between the airfoil body and the integral partial height squealer tip; and bonding a squealer tip extension to the partial height squealer tip.
  • 20. The method of claim 19 comprising drilling a coolant hole in the tip cap prior to bonding the squealer tip extension to the partial height squealer tip, which coolant hole is angled so as to direct coolant at the squealer tip extension.
  • 21. The method of claim 19 comprising forming the core body from a first superalloy and forming the squealer tip extension from a second superalloy distinct from the first superalloy.
  • 22. The method of claim 19 comprising forming the squealer tip extension by welding build up onto the partial height squealer tip.
  • 23. The method of claim 19 wherein the squealer tip extension is formed prior to attachment to the partial height squealer tip and is attached thereto by metallurgical bonding.
  • 24. A method for repairing a gas turbine engine airfoil of the type having an airfoil body, a tip cap, and a squealer tip, the method comprising: removing at least a portion of the squealer tip; drilling an impingement coolant hole in the tip cap which coolant hole is angled so as to provide impingement cooling; and replacing said at least a portion of the squealer tip.
  • 25. The method of claim 24 wherein the gas turbine engine has a film coolant hole in the tip cap prior to repair, the method comprising plugging the film coolant hole.
  • 26. The method of claim 25 comprising plugging the film coolant hole prior to the drilling of the impingement coolant hole.
  • 27. The method of claim 24 wherein the replacing comprises building up by welding.
  • 28. The method of claim 27 wherein the replacing comprises building up by welding with a second superalloy distinct from a first superalloy from which the airfoil is formed.