Use of spray coatings to achieve non-uniform seal clearances in turbomachinery
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-011/14
F01D-011/08
B32B-003/26
B32B-003/02
B32B-007/02
B32B-015/04
출원번호
US-0735504
(2003-12-12)
등록번호
US-7255929
(2007-08-14)
발명자
/ 주소
Turnquist,Norman Arnold
Kowalczyk,Mark William
Ghasripoor,Farshad
출원인 / 주소
General Electric Company
인용정보
피인용 횟수 :
5인용 특허 :
16
초록▼
The invention provides spray coatings to achieve circumferentially non-uniform seal clearances in turbomachines. In steam and gas turbines it is desirable to assemble the machines with elliptical seal clearances to compensate for expected casing distortion, rotordynamics or phenomena that cause circ
The invention provides spray coatings to achieve circumferentially non-uniform seal clearances in turbomachines. In steam and gas turbines it is desirable to assemble the machines with elliptical seal clearances to compensate for expected casing distortion, rotordynamics or phenomena that cause circumferentially non-uniform rotor-stator rubs. The claimed invention allows the casing hardware to be fabricated round, and a spray coating is applied to the radially inner surface such that the coating thickness varies circumferentially, providing the desired non-uniform rotor-stator clearance during assembly.
대표청구항▼
What is claimed is: 1. A stator component for a turbine assembly, comprising: an annular base component having an inner surface that is substantially circular in axial cross-section; and a coating disposed on said inner surface of said base component, wherein said coating has an interfacial surface
What is claimed is: 1. A stator component for a turbine assembly, comprising: an annular base component having an inner surface that is substantially circular in axial cross-section; and a coating disposed on said inner surface of said base component, wherein said coating has an interfacial surface in contact with said inner surface of said base component and an outer surface opposite said interfacial surface, and wherein said coating has a non-uniform thickness that varies as a function of circumferential position along said inner surface of said base component. 2. The stator component of claim 1, wherein said outer suffice of said coating is substantially an ellipse in axial cross-section. 3. The stator component of claim 2, wherein said ellipse has a major axis running between top and bottom portions of said base component. 4. The stator component of claim 1, wherein said thickness of said coating is up to about 3 mm. 5. The stator component of claim 4, wherein said thickness of said coating is up to about 1.75 mm. 6. The stator component of claim 1, wherein said coating comprises an abradable material. 7. The stator component of claim 6, wherein said abradable material comprises a metal matrix phase and at least one secondary phase. 8. The stator component of claim 7, wherein said metal matrix phase comprises at least one alloy selected from the group consisting of CoNiCrAlY, NiCrFeAl, and NiCrAl. 9. The stator component of claim 7, wherein said secondary phase comprises graphite. 10. The stator component of claim 9, wherein said thermally-sprayed coating process comprises at least one of a thermal-sprayed coating, a plasma-sprayed coating, a flame-sprayed coating, an HVOF-sprayed coating, and a wire-arc sprayed coating. 11. The stator component of claim 7, wherein said at least one secondary phase comprises at least one of a ceramic, a polymer, and a salt. 12. The stator component of claim 11 wherein said ceramic comprises at least one of hexagonal BN, aluminosilicates, and calcined bentonite clay. 13. The stator component of claim 11 wherein said polymer comprises at least one of polyester, polyimide, polymethyl methacrylate, silicone, siloxane, and rubber. 14. The stator component of claim 11 wherein said salt comprises at least one of aluminum phosphate and aluminum hydroxide. 15. The stator component of claim 1, wherein said coating comprises a sprayed coating. 16. The stator component of claim 1, wherein said base component comprises at least one of a shroud, a turbine casing, and an annular assembly of turbine nozzles. 17. The stator component of claim 1, wherein said turbine assembly comprises a steam turbine. 18. A stator component for a turbine assembly, comprising: an annular base component having an inner surface that is substantially circular in axial cross-section; and a coating comprising an abradable material, said coating disposed on said inner surface of said base component and having an interfacial surface in contact with said inner surface of said base component and an outer surface opposite said interfacial surface, wherein said outer surface of said coating is substantially an ellipse in axial cross-section having a major axis running between top and bottom portions of said base component. 19. A method for making a stator component for a turbine assembly. comprising: providing an annular base component having an inner surface that is substantially circular in axial cross-section; and disposing a coating an said inner surface of said base component, wherein said coating has an interfacial surface in contact with said inner surface of said base component and an outer surface opposite said interfacial surface, and wherein said coating has a non-uniform thickness that varies as a function of circumferential position along said inner surface of said base component. 20. The method of claim 19, wherein said outer surface of said coating is substantially an ellipse in axial cross-section. 21. The method of claim 20, wherein said ellipse has a major axis running between top and bottom portions of said base component. 22. The method of claim 19, wherein disposing said coating further comprises disposing a coating comprising an abradable material. 23. The method of claim 22, wherein said abradable material comprises a metal matrix phase and at least one secondary phase. 24. The method of claim 23, wherein said metal matrix phase comprises at least one alloy selected from the group consisting of CoNiCrAlY, NiCrFeAL and NiCeAl. 25. The method of claim 23, wherein said secondary phase comprises graphite. 26. The method of claim 23, wherein said at least one secondary phase comprises at least one of a ceramic, a polymer, and a salt. 27. The method of claim 26 wherein said ceramic comprises at least one of hexagonal BN, aluminosilicates, and calcined bentonite clay. 28. The method of claim 26 wherein said polymer comprises at least one of polyester, polyimide, polymethyl methacrylate, silicone, siloxane, and rubber. 29. The method of claim 26 wherein said salt comprises at least one of aluminum phosphate and aluminum hydroxide. 30. The method of claim 19, wherein disposing comprises disposing said coating using a spray process. 31. The method of claim 30, wherein said spray process comprises at least one of thermal-spray coating, plasma-sprayed coating, flame-sprayed coating, HVOF-sprayed coating. and wire-arc sprayed coating. 32. The method of claim 19, wherein providing said base component comprises providing a base component comprising at least one of a shroud, a turbine casing, and an annular assembly of turbine nozzles. 33. A method for making a stator component for a turbine assembly, comprising: providing an annular base component having an inner surface that is substantially circular in axial cross-section; and disposing, by a thermal spray process, a coating comprising abradable material, said coating disposed on said inner surface of said base component and having an interfacial surface in contact with said inner surface of said base component and an outer surface opposite said interfacial, surface, wherein said outer surface of said coating is substantially an ellipse in axial cross-section having a major axis running between top and bottom portions of said base component.
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이 특허에 인용된 특허 (16)
Nava, Yrene L.; Mutasim, Zaher Z., Abradable coating and method of production.
Mason Stephen,GBX ; Percival Michael J L,GBX ; Merrill Gary B.,GBX ; Doleman Paul A.,GBX, Abradable composition, a method of manufacturing an abradable composition and a gas turbine engine having an abradable.
William John Dalzell, Jr. ; Stuart Alan Sanders ; George Lee Crawford ; Frederick Clell Walden ; William J. Woodard, Abradable seal having improved properties.
Fang, Biao; Turnquist, Norman Arnold; Sarshar, Hamid Reza; Aksit, Mahmut Faruk; Burnett, Mark Edward; Baily, Frederick George; Demiroglu, Mehmet, Seal carrier for a rotary machine and method of retrofitting.
Plemmons Larry W. (Fairfield OH) Oakes William C. (West Chester OH) Kirkpatrick Ralph A. (Cincinnati OH), Stator having selectively applied thermal conductivity coating.
Hughes John H. (Manchester CT) Nissley David M. (Marlborough CT) McCusker Kevin N. (Framingham MA) Ellis Charles A. (Stuart FL), Turbine shroud segment including a coating layer having varying thickness.
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