A shroud segment for a gas turbine engine, the shroud segment constructed from a composite material including reinforcing fibers embedded in a matrix, and having a cross-sectional shape defined by opposed forward and aft walls, and opposed inner and outer walls, the walls extending between opposed f
A shroud segment for a gas turbine engine, the shroud segment constructed from a composite material including reinforcing fibers embedded in a matrix, and having a cross-sectional shape defined by opposed forward and aft walls, and opposed inner and outer walls, the walls extending between opposed first and second end faces, wherein the inner wall defines an arcuate inner flowpath surface; and wherein a compound fillet is disposed at a junction between first and second ones of the walls, the compound fillet including first and second portions, the second portion having a concave curvature extending into the first one of the walls.
대표청구항▼
1. A shroud segment for a gas turbine engine, the shroud segment constructed from a composite material including reinforcing fibers embedded in a matrix, and having a cross-sectional shape defined by opposed forward and aft walls, and opposed inner and outer walls, the walls extending between oppose
1. A shroud segment for a gas turbine engine, the shroud segment constructed from a composite material including reinforcing fibers embedded in a matrix, and having a cross-sectional shape defined by opposed forward and aft walls, and opposed inner and outer walls, the walls extending between opposed first and second end faces, wherein the inner wall defines an arcuate inner flowpath surface; and wherein a compound fillet is disposed at a junction between first and second ones of the walls, the compound fillet including first and second portions, the second portion having a concave curvature extending into the first one of the walls, wherein the first portion represents an addition to a nominal thickness of the second wall. 2. The shroud segment of claim 1 wherein the thickness of the first wall is at a minimum within the second portion of the compound fillet. 3. The shroud segment of claim 1 wherein the first portion comprises a surface disposed at an acute angle to the first and second walls. 4. The shroud segment of claim 1 wherein the first wall is the inner wall. 5. The shroud segment of claim 1 wherein the second wall is the aft wall. 6. The shroud segment of claim 1 wherein the composite material comprises a ceramic matrix composite material. 7. A shroud apparatus for a gas turbine engine, comprising: an annular metallic hanger;a shroud segment disposed inboard of the hanger, the shroud segment constructed from a composite material including reinforcing fibers embedded in a matrix, and having a cross-sectional shape defined by opposed forward and aft walls, and opposed inner and outer walls, the walls extending between opposed first and second end faces, wherein the inner wall defines an arcuate inner flowpath surface; and wherein a compound fillet is disposed at a junction between first and second ones of the walls, the compound fillet including first and second portions, the second portion having a concave curvature extending into the first one of the walls, wherein the first portion represents an addition to a nominal thickness of the second wall; anda retainer mechanically coupled to the hanger which engages the shroud segment to retain the shroud segment to the hanger while permitting movement of the shroud segment in a radial direction. 8. The apparatus of claim 7 wherein the retainer includes a central portion with a pair of opposed arms extending laterally outward therefrom. 9. The apparatus of claim 7 wherein a surface of the retainer is clamped against the hanger, and the outer wall of the shroud segment is trapped between the hanger and a portion of the retainer. 10. The apparatus of claim 9 wherein a spring is clamped between the hanger and the retainer and resilient bears against the shroud segment so as to urge it radially inboard against the retainer. 11. The apparatus of claim 7 wherein the inner wall extends axially forward past the forward wall to define a forward overhang and the inner wall extends axially aft past the aft wall to define an aft overhang. 12. The apparatus of claim 7 wherein the hanger is surrounded and carried by an annular turbine case. 13. The apparatus of claim 12 wherein the hanger includes axially-spaced-apart forward and aft hooks which are received by forward and aft rails of the turbine case, respectively. 14. The apparatus of claim 7 wherein the shroud segment includes a transition wall disposed between the forward and outer walls and extending at acute angles to both the forward and outer walls. 15. The apparatus of claim 14 wherein the transition wall extends generally parallel to the body of the hanger. 16. The apparatus of claim 7 wherein the hanger includes a resilient aft inner leg which resilient loads the shroud segment axially forward against a bearing surface of a forward inner leg of the hanger. 17. The apparatus of claim 7 wherein the shroud segment comprises a ceramic matrix composite material. 18. The apparatus of claim 7 wherein an annular ring of shroud segments are arranged in an annular array within the casing.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (21)
Sarrafi-Nour, Reza; Luthra, Krishan Lal; Meschter, Peter Joel; Johnson, Curtis Alan, Articles for high temperature service and methods for their manufacture.
Radonovich, David Charles; Keller, Douglas Allen; Morrison, Jay Alan; Gonzalez, Malberto Fernandez; Schiavo, Anthony L., Ceramic matrix composite turbine engine components with unitary stiffening frame.
Meschter, Peter Joel; Johnson, Curtis Alan; Luthra, Krishan Lal; Sarrafi Nour, Reza, Environmental barrier coating for a component and method for fabricating the same.
Bruce, Kevin Leon; Cairo, Ronald Ralph; Nimmer, Ronald Phillip; Johnson, Curtis Alan; Corman, Gregory Scot; Roberts, III, Herbert Chidsey, Gas turbine shroud support apparatus.
Meschter, Peter Joel; Johnson, Curtis Alan; Luthra, Krishan Lal; Sarrafi-Nour, Reza, Method for fabricating a component having an environmental barrier coating.
Campbell, Christian X.; Keller, Douglas A.; Gonzalez, Malberto F., Pin-loaded mounting apparatus for a refractory component in a combustion turbine engine.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.