Method for producing a corrugated foil bearing stiffener and obtained stiffener
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B23P-015/00
F16C-017/02
B21D-015/02
F16C-033/14
출원번호
US-0888534
(2014-04-29)
등록번호
US-10144098
(2018-12-04)
우선권정보
FR-13 54402 (2013-05-16)
국제출원번호
PCT/FR2014/051021
(2014-04-29)
국제공개번호
WO2014/184460
(2014-11-20)
발명자
/ 주소
Rocchi, Jerome
Grau, Gregory
Letrange, Frederic
출원인 / 주소
LIEBHERR-AEROSPACE TOULOUSE SAS
대리인 / 주소
Young & Thompson
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A method for producing a corrugated foil bearing stiffener involves starting with an austenitic nickel superalloy sheet (15) having an elasticity limit higher than 500 MPa, and subjecting the sheet (15) to at least one step of press bending plastic deformation of the entire thickness of same with a
A method for producing a corrugated foil bearing stiffener involves starting with an austenitic nickel superalloy sheet (15) having an elasticity limit higher than 500 MPa, and subjecting the sheet (15) to at least one step of press bending plastic deformation of the entire thickness of same with a deformation energy higher than 10 kJ in a time shorter than 10−5 s in such a way as to create corrugations.
대표청구항▼
1. A method for producing a corrugated foil-bearing stiffener, comprising: providing a sheet (15) of nickel-based austenitic metallic superalloy exhibiting a yield strength greater than 500 MPa; andsubjecting the sheet (15) to at least one step of plastic flexural deformation by stamping along an en
1. A method for producing a corrugated foil-bearing stiffener, comprising: providing a sheet (15) of nickel-based austenitic metallic superalloy exhibiting a yield strength greater than 500 MPa; andsubjecting the sheet (15) to at least one step of plastic flexural deformation by stamping along an entire thickness of the sheet with a deformation energy greater than 10 kJ within a period shorter than 10−5 s, so as to create flexural corrugations,wherein in the course of said at least one step of plastic flexural deformation, the sheet (15) is subjected to a deformation energy of less than 35 kJ within a period longer than 10−10 s,wherein the sheet (15) is wound in the form of a cylindrical solid of revolution between an external die (17), exhibiting an internal cylindrical face (18) endowed with patterns (19) in the form of troughs corresponding to the corrugations to be formed, and a cylindrical punch (16) consisting of rubber elastomer, andwherein said cylindrical punch (16) is axially compressed, the radial expansion of the cylindrical punch (16) bringing about the radial stamping of the sheet (15) in the die to form said flexural corrugations. 2. The method as claimed in claim 1, wherein the sheet (15) is nickel-based austenitic metallic superalloy exhibiting a yield strength greater than 700 MPa, a tensile strength greater than 1000 MPa, and an elongation at break greater than 20%. 3. The method as claimed in claim 2, wherein the sheet (15) is nickel-based austenitic metallic superalloy comprising between 5% and 9% iron, more than 70% nickel and cobalt, of which at most 1% is cobalt, between 14% and 17% chromium. 4. The method as claimed in claim 2, wherein the sheet (15) is planar with a thickness between 0.05 mm and 0.4 mm, andwherein flexural corrugations are produced having a height of each corrugation of between 0.2 mm and 1 mm, a length of each corrugation of between 3 mm and 10 mm, and a pitch between the corrugations of between 4 mm and 10 mm. 5. The method as claimed in claim 2, wherein in the course of said at least one step of plastic flexural deformation, a coupling fold (23) is also realized, forming an outer edge (22) of the stiffener (13). 6. The method as claimed in claim 2, wherein the sheet (15) is deformed by stamping in a direction at least normal to the sheet. 7. The method as claimed in claim 1, wherein the sheet (15) is nickel-based austenitic metallic superalloy comprising between 5% and 9% iron, more than 70% nickel and cobalt, of which at most 1% is cobalt, between 14% and 17% chromium. 8. The method as claimed in claim 7, wherein the nickel-based austenitic metallic superalloy has less than 0.08% carbon, less than 0.3% manganese, less than 0.5% silicon, less than 0.01% sulfur, between 0.4% and 1% aluminum, between 2.25% and 2.70% titanium, less than 0.5% copper, and between 0.7% and 1.2% niobium and tantalum. 9. The method as claimed in claim 7, wherein the sheet (15) is planar with a thickness between 0.05 mm and 0.4 mm, andwherein flexural corrugations are produced having a height of each corrugation of between 0.2 mm and 1 mm, a length of each corrugation of between 3 mm and 10 mm, and a pitch between the corrugations of between 4 mm and 10 mm. 10. The method as claimed in claim 1, wherein the sheet (15) is planar with a thickness between 0.05 mm and 0.4 mm, andwherein flexural corrugations are produced having a height of each corrugation of between 0.2 mm and 1 mm, a length of each corrugation of between 3 mm and 10 mm, and a pitch between the corrugations of between 4 mm and 10 mm. 11. The method as claimed in claim 1, wherein in the course of said at least one step of plastic flexural deformation, a coupling fold (23) is also realized, forming an outer edge (22) of the stiffener (13). 12. The method as claimed in claim 1, wherein the sheet (15) is deformed by stamping in a direction at least normal to the sheet. 13. The method as claimed in claim 1, wherein said cylindrical punch (16) is axially compressed with the aid of at least one piston (20) having a mass greater than or equal to 200 g, which is driven axially at a speed greater than 10 m/s. 14. A method for producing a foil bearing, comprising: producing a corrugated stiffener by implementation of the method as claimed in claim 1, with a shape and dimensions configured for mounting directly in the foil bearing; andmounting the produced corrugated stiffener in the foil bearing.
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이 특허에 인용된 특허 (4)
Heshmat Hooshang (Troy NY), Composite material compliant bearing element.
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