Method for the manufacture of a circular revolution thermomechanical part including a titanium-based load-bearing substrate lined with steel or superalloy, a turbomachine compressor housing which is resistant to titanium fire obtained according to this method
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A method for manufacture of a compressor housing which is resistant to a titanium fire (burning titanium). A circular blank made of steel, or steel alloy, or superalloy which is incombustible in the presence of a titanium fire is hydroformed against a circular blank made from titanium or titanium al
A method for manufacture of a compressor housing which is resistant to a titanium fire (burning titanium). A circular blank made of steel, or steel alloy, or superalloy which is incombustible in the presence of a titanium fire is hydroformed against a circular blank made from titanium or titanium alloy.
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1. A method for manufacture of a circular revolution thermomechanical part including a load-bearing substrate made from titanium or titanium alloy lined with a steel or superalloy, the method comprising: a) producing a first blank made from titanium or titanium alloy having a general circular shape
1. A method for manufacture of a circular revolution thermomechanical part including a load-bearing substrate made from titanium or titanium alloy lined with a steel or superalloy, the method comprising: a) producing a first blank made from titanium or titanium alloy having a general circular shape as close as possible to a shape and external dimensions of the part to be manufactured;b) producing a second blank made from steel, or steel alloy, or superalloy incombustible in presence of burning titanium, having a general circular shape including at least one diameter less than a diameter of the circular first blank made from titanium or titanium alloy and as close as possible to the shape and internal dimensions of the part to be manufactured;c) machining, using the internal dimensions of the part to be manufactured, an inner surface of the second blank made from steel, or steel alloy, or superalloy;d) fitting the second blank made from steel, or steel alloy, or superalloy in the first blank made from titanium or titanium alloy; ande) cladding by hydroforming of the second blank made from steel, or steel alloy, or superalloy against the first blank made from titanium or titanium alloy under process conditions such that mechanical connections created at an interface have no fragile phases in a course of thermomechanical cycles to which the part is subsequently subjected,wherein the cladding e) includes deforming a plastic receptacle, filled with an incompressible fluid, and in direct contact with the inner surface of the second blank made of steel, or steel alloy, or superalloy by compression. 2. A method according to claim 1, wherein the producing a) includes beta or alpha-beta forging or casting of a titanium alloy. 3. A method according to claim 1, wherein the producing b) includes pre-rolling or rolling of a plate or drawn rolled welded techniques using a steel alloy. 4. A method according to claim 1, wherein the cladding e) includes: heating the first and second blanks fitted one into the other to a temperature of between 150 and 500° C. prior to deforming the plastic receptacle. 5. A method according to claim 1, wherein the producing b) including forming circumferential undulations on the inner surface of the first blank made from titanium or titanium alloy to improve mechanical properties of bonds in an axial direction of the part. 6. A housing obtained by the method according to claim 1. 7. A housing according to claim 6, wherein the steel or steel alloy is chosen from among Inconel® 909 or Inconel® 783. 8. A housing according to claim 6, wherein the titanium alloy is chosen from among Ti 64, Ti 6242, or Ti 6246. 9. A housing according to claim 6, wherein a length of a clad part corresponds only to a part of annular length of the housing. 10. A housing according to claim 6, wherein, downstream from a length on to which the clad part is attached, a wear material configured to define an outer contour of the airstream is attached on to a part made of titanium or titanium alloy. 11. A high-pressure axial compressor comprising, as a stator, a housing according to claim 6. 12. A high-pressure compressor according to claim 11, wherein a length of the housing constitutes only an upstream part of the compressor, and wherein an inner wall demarcating an outer contour of the downstream airstream is made from titanium or titanium alloy. 13. An aircraft engine comprising a compressor according to claim 11.
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이 특허에 인용된 특허 (9)
Popp Joachim (Dachau DEX), Apparatus for preventing the spreading of titanium fires in gas turbine engines.
Neal Donald F. (55 Watling Street Woodside ; Hints GB2) Kearns Michael W. (11 Kingscroft Road Streetly GB2 B 76 2HF) Fox Stephen P. (41 Woodend Handsworth GB2 B20 1EW) Melville James E. (41A Church L, Rotating or moving metal components and methods of manufacturing such components.
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