Hybrid ceramic structure with internal cooling arrangements
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-001/08
F16L-009/10
F16L-009/14
F16L-009/18
출원번호
US-0099434
(2008-04-08)
등록번호
US-8202588
(2012-06-19)
발명자
/ 주소
Keller, Dougas A.
Gonzalez, Malberto F.
Morrison, Jay A.
출원인 / 주소
Siemens Energy, Inc.
인용정보
피인용 횟수 :
4인용 특허 :
23
초록▼
A structure for use in high temperature applications is provided. The structure may include an inner ceramic matrix composite (CMC) material (12). At least a portion of this CMC material includes waves that define a first wavy surface (140 and an opposed second wavy surface (16). A ceramic insulatio
A structure for use in high temperature applications is provided. The structure may include an inner ceramic matrix composite (CMC) material (12). At least a portion of this CMC material includes waves that define a first wavy surface (140 and an opposed second wavy surface (16). A ceramic insulation material (18) may be bonded with the first wavy surface and includes a distal surface (20) for exposure to a high temperature environment. A core material (22) is bonded with at least a portion of the second wavy surface. One or more cooling channels (24) are disposed in the core material. An outer CMC material (26) may be joined to a portion of the inner CMC material. The core material is a material different than a matrix material of the inner CMC material.
대표청구항▼
1. A structure comprising: an inner ceramic matrix composite (CMC) material, at least a portion of which comprises waves, the waves defining a first wavy surface and an opposed second wavy surface;a core material bonded with at least a portion of the second wavy surface, wherein a coefficient of the
1. A structure comprising: an inner ceramic matrix composite (CMC) material, at least a portion of which comprises waves, the waves defining a first wavy surface and an opposed second wavy surface;a core material bonded with at least a portion of the second wavy surface, wherein a coefficient of thermal conductivity of the core material is higher relative to a coefficient of thermal conductivity of the inner CMC material;a cooling channel disposed in the core material; andan outer CMC material joined to a portion of the inner CMC material, wherein the core material comprises a material different than a matrix material and/or the material of the fibers of the inner CMC material. 2. The structure of claim 1 comprising a tubular structure, the tubular structure having a thermal insulation layer defining at least a central passageway therein, the distal surface of the thermal insulation layer having a non-wavy surface for the passage of a hot gas through the passageway. 3. The structure of claim 1, wherein an inner surface of the outer CMC material is joined to the inner CMC material at a crest of the second wavy surface of the inner CMC material. 4. The structure of claim 1, wherein the outer CMC material is joined to the inner CMC material through at least one interlocking device. 5. The structure of claim 2, wherein the outer CMC material comprises a circumferentially closed wrap about the tubular structure, wherein the wrap is arranged to enclose an entire outer surface of a cylindrical portion of the tubular structure. 6. The structure of claim 2, wherein the outer CMC material comprises a circumferentially closed strap about the tubular structure, wherein the strap is arranged to partially enclose an outer surface of a cylindrical portion of the tubular structure. 7. The structure of claim 1, wherein the outer CMC material comprises a first wavy surface and a second wavy surface. 8. The structure of claim 7, wherein the second wavy surface of the outer CMC material is joined to the second wavy surface of the inner CMC material at corresponding crest regions of said second wavy surfaces. 9. The structure of claim 8, wherein the second wavy surface of the outer CMC material is spaced apart from the second wavy surface of the inner CMC material at corresponding valley regions of said second wavy surfaces to define a pocket for containing the core material. 10. The structure of claim 1, further comprising a ceramic insulation material bonded with the first wavy surface and comprising a distal surface for exposure to a high temperature environment. 11. The structure of claim 1, wherein the inner CMC material comprises a first material composition, and the outer CMC material comprises a second material composition, and further wherein said first and second material compositions are different from one another. 12. A hybrid ceramic structure comprising: an inner ceramic matrix composite (CMC) member, at least a portion of which comprises waves defining a first wavy surface and an opposed second wavy surface;a thermal insulation member bonded with the first wavy surface, and comprising a distal surface;an outer CMC member joined to a portion of the inner CMC member, the inner CMC and the outer CMC members comprising spaced apart regions that define at least one pocket therebetween;a core material disposed in at least a portion of said pocket, wherein the core material comprises a material different than a matrix material and/or the material of the fibers of the inner CMC member, wherein a coefficient of thermal conductivity of the core material is higher relative to a coefficient of thermal conductivity of the inner CMC material; anda cooling channel disposed in the core material. 13. The structure of claim 12, wherein an inner surface of the outer CMC member is joined to the inner CMC member at a crest of the second wavy surface of the inner CMC member. 14. The structure of claim 12, wherein the outer CMC member is joined to the inner CMC member through at least one interlocking device. 15. The structure of claim 12, wherein the outer CMC member comprises a first wavy surface and a second wavy surface. 16. The structure of claim 15, wherein the second wavy surface of the outer CMC member is joined to the second wavy surface of the inner CMC member at corresponding crest regions of said second wavy surfaces. 17. The structure of claim 16, wherein the second wavy surface of the outer CMC member is spaced apart from the second wavy surface of the inner CMC member at corresponding valley regions of said second wavy surfaces to define the pocket for containing the core material. 18. A tubular structure comprising: an inner ceramic matrix composite (CMC) material, at least a portion of which comprises waves, the waves defining a first wavy surface and an opposed second wavy surface;a ceramic insulation material bonded with the first wavy surface and comprising a distal surface for exposure to a high temperature environment;a core material bonded with at least a portion of the second wavy surface, wherein a coefficient of thermal conductivity of the core material is higher relative to a coefficient of thermal conductivity of the inner CMC material;a cooling channel disposed in the core material; andan outer CMC member joined to a portion of the inner CMC material, wherein the core material comprises a material different than a matrix material and/or the material of the fibers of the inner CMC material, and further wherein the tubular structure includes a thermal insulation layer, which defines at least a central passageway therein, the distal surface of the thermal insulation layer having a non-wavy surface for the passage of a hot gas through the passageway. 19. The structure of claim 18, wherein the outer CMC material comprises a circumferentially closed wrap about the tubular structure, wherein the wrap is arranged to enclose an entire outer surface of a cylindrical portion of the tubular structure. 20. A structure comprising: an inner ceramic matrix composite (CMC) material, at least a portion of which comprises waves, the waves defining a first wavy surface and an opposed second wavy surface;a core material bonded with at least a portion of the second wavy surface;a cooling channel disposed in the core material; andan outer CMC material joined to a portion of the inner CMC material, wherein the core material comprises a material different than a matrix material and/or the material of the fibers of the inner CMC material, wherein the fibers of the inner CMC material comprise a plurality of continuous fibers extending parallel to the first and second wavy surfaces.
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