METALLIC POWDER MIXTURE FOR BUILD-UP OR REPAIR

Abstract

A composition of a nickel-based alloy mixture which can be used for welding via especially liquid metal deposition or as a powder bed of an additive manufacturing method. The metallic powder mixture includes a cobalt (Co) or nickel (Ni) based super alloy, a NiCoCrAlY—X-composition wherein X=Silicon (Si), Tantalum (Ta), Rhenium (Re) and/or Iron (Fe), a metallic braze material, wherein the melting point of the braze material is at least 10K lower than the melting point of the cobalt (Co) or nickel (Ni) based superalloy.

Claims

1. A metallic powder mixture, especially usable for build up via liquid metal deposition or any additive manufacturing method, comprising, especially consisting of (in wt %): a cobalt (Co) or nickel (Ni) based super alloy with a content of 10% to 30%, especially 20%, a NiCoCrAlY—X-composition with a content of 80% to 60% and especially 70%, wherein X=Silicon (Si), Tantalum (Ta), Rhenium (Re) and/or Iron (Fe), a metallic braze material with a content between 5% to 15%, especially 10%, wherein the melting point of the braze material is at least 10K, especially at least 20K, lower than the melting point of the cobalt (Co) or nickel (Ni) based superalloy, especially the powder mixture consists of three powders with different compositions.

2. The metallic powder mixture according to claim 1, wherein the nickel (Ni) base superalloy comprises, especially consists of (in wt %): TABLE-US-00006 Carbon (C) 0.05%-0.20% especially 0.07%-0.17% Chromium (Cr)  8.0%-23.0% especially 12.0%-23.0% Cobalt (Co)  8.0%-19.0% especially  9.0%-10.0% very especially 18.0%-19.0% Tungsten (W)  2.0%-10.0% especially 2.0%-4.5% very especially  9.0%-10.0% Titanium (Ti) 0.6%-5.0% Aluminum (Al) 1.0%-6.0% optionally Boron (B) 0.005%-0.03%  especially 0.006%-0.015% Molybdenum (Mo) 0.0%-4.5% especially 0.50%-4.0%  Tantalum (Ta) 0.0%-4.5% especially 1.0%-4.5% Hafnium (Hf) 0.6%-1.5% Zirconium (Zr) 0.02%-0.12% Niobium (Nb) 0.5%-1.0% especially no Yttrium (Y) and/or no Rhenium (Re), remainder Nickel (Ni).

3. The metallic powder mixture according to claim 1, wherein the nickel (Ni) base superalloy comprises, especially consists of (in wt %): TABLE-US-00007 Nickel (Ni) 61.6% Carbon (C) 0.08% Chromium (Cr) 8.25% Cobalt (Co) 9.25% Molybdenum (Mo) 0.50% Tungsten (W) 9.50% Titanium (Ti) 0.75% Aluminum (Al) 5.55% Boron (B) 0.02% Tantalum (Ta) 3.20% Hafnium (Hf) 1.30%, especially no Yttrium (Y) and/or no Rhenium (Re).

4. The metallic powder mixture according to claim 1, wherein the nickel based super alloy is selected from Alloy247, Inconel625, Rene 80 or Mer172, especially Alloy247.

5. The metallic powder mixture according to claim 1, wherein the braze alloy comprises, especially consists of (in wt %): TABLE-US-00008 Nickel (Ni) 51.70%-52.40% Chromium (Cr) 14.00%-14.25% Cobalt (Co) 19.00%-19.60% Aluminum (Al) 8.00%-8.30% Tantalum (Ta) 0.55%-0.75% Molybdenum (Mo) 0.09%-0.12% Hafnium (Hf) 0.22%-0.30% Tungsten (W) 1.60%-2.20% Titanium (Ti) 0.70%-1.10% Yttrium (Y) 0.18%-0.22% Rhenium (Re) 0.90%-1.10% Carbon (C) 0.10%-0.20% Zirconium (Zr)  0.90%-1.80%.

6. The metallic powder mixture according to claim 1, wherein the braze alloy comprises, especially consists of (in wt %): TABLE-US-00009 Nickel (Ni) 52.0% Chromium (Cr) 14.0% Cobalt (Co) 19.30% Aluminum (Al) 8.10% Tantalum (Ta) 0.65% Molybdenum (Mo) 0.10% Hafnium (Hf) 0.25% Tungsten (W) 1.90% Titanium (Ti) 0.90% Yttrium (Y) 0.20% Rhenium (Re) 1.05% Carbon (C) 0.20% Zirconium (Zr) 1.35%.

7. The metallic powder mixture according to claim 5, wherein the melt depressant Zirconium (Zr) is at least partially replaced by or it is additionally added: Silicon (Si) and/or Magnesium (Mg) and/or Mangan (Mn).

8. The metallic powder mixture according to claim 1, wherein the NiCoCrAlY—X composition comprises, especially consists of (in wt %): 14.0%-22.0% Chromium (Cr) 9.0%-11.5% Aluminum (Al) 0.3%-0.5% Yttrium (Y) 11.0%-26.0% Cobalt (Co) 0.0%-1.0% Silicon (Si), especially 0.1%-1.0% Silicon (Si), 0.0%-2.5% Rhenium (Re) and remainder Nickel (Ni).

9. The metallic powder mixture according to claim 1, wherein the NiCoCrAlY—X composition comprises, especially consists of (in wt %): 20.0%-22.0% Chromium (Cr) 10.5%-11.5% Aluminum (Al) 0.3%-0.5% Yttrium (Y) 1.5%-2.5% Rhenium (Re) or between 0.5%-1.5% Rhenium 11.0%-13.0% Cobalt (Co) and remainder Nickel.

10. The metallic powder mixture according to claim 1, wherein the NiCoCrAlY—X composition comprises, especially consists of (in wt %): 15.0%-21.0% Chromium (Cr) 24.0%-26.0% Cobalt (Co) 9.0%-11.5% Aluminum (Al) 0.05%-0.7% Yttrium (Y) 0.5%-2.0% Rhenium (Re) and remainder Nickel.

11. The metallic powder mixture according to claim 1, wherein the NiCoCrAlY—X composition comprises, especially consists of (in wt %): 22.0%-24.0% Cobalt (Co) 14.0%-16.0% Chromium (Cr) 10.5%-11.5% Aluminum (Al) 0.2%-0.4% Yttrium (Y), optional 0.3%-0.9% Tantalum (Ta) and remainder Nickel (Ni).

12. The metallic powder mixture according to claim 1, wherein NiCoCrAlY—X comprises, especially consists of Nickel (Ni), Cobalt (Co), Chromium (Cr), Aluminum (Al), Yttrium (Y) or any other Rare Earth Metal, especially only Yttrium (Y) and optional X selected from the group Tantalum (Ta), Rhenium (Re), Silicon (Si) and/or Iron (Fe).

13. The metallic powder mixture according to claim 1, wherein the braze alloy comprises, especially consist of (in wt %) Nickel (Ni) 74% Chromium (Cr) 5% Titanium (Ti) 7.5% Zirconium (Zr) 13.5%.

14. A powder, comprising, especially consisting of: a mixture according to claim 1, especially with a binder.

15. A method to build up metallic material, comprising: building up a metallic powder mixture of claim 1.

16. The method according to claim 15, wherein the building up of the metallic powder mixture is used for welding using powder cladding, wire welding or for additive manufacturing using powder beds, especially SLM, SLS.

17. A product produced by a method according to claim 15.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0035] FIG. 1 shows a method how to apply the inventive material during welding and FIG. 2 shows a schematic arrangement to use the inventive powder for additive manufacturing, especially via laser.

DETAILED DESCRIPTION OF INVENTION

[0036] The description and the figures are only examples of the invention.

[0037] This method and the material can be used to build up totally new component starting on a base plate or to repair an existing substrate 4 which both means a build up of material.

[0038] The build up of material is necessary to erosion or cracks which have been removed. In this case, only for example, a blade tip is repaired by building up the material onto a blade tip 7. The surface 10 of the substrate 4 reveals the base on which the material is applied on. The material 16 is applied via a nozzle 13 which is connected to a powder supply 19 is an inventive material. The nozzle 13 also includes a laser which together with the powder 16 is used for welding by melting the powder via a laser beam (not shown).

[0039] The inventive material can also be produced as a rod and or a wire and can be used via wire welding.

[0040] In FIG. 2 another application of the inventive material is shown.

[0041] Here a selective laser melting process (also electron beams can be used instead of a laser) wherein a powder bed 22 with the inventive powder mixture is used to create a totally new component or even to repair a substrate 4.

[0042] The substrate 4 is totally inside the powder bed 22 and a laser 25 with a laser beam 28 is used to melt or to sinter partially a powder where a material build up onto the substrate 4 where it is needed or wanted.

[0043] The inventive material is a metallic powder mixture of three different powders.

[0044] Especially the powder mixture comprises alloy 247 or generally a nickel based super alloy and a NiCoCrAlY, and also comprises optionally additions like Rhenium (Re), Tantalum (Ta) and/or Silicon (Si), and a braze alloy which has at least a melting point at least 20K lower than the nickel based super alloy.

[0045] Further examples for the nickel base super alloy are listed in FIG. 3.