Claims
- 1. In a turbine engine comprising a compressor section for compressing incoming fluid, a combustion section for burning fuel with the fluid to generate combustion gases, and a turbine section for extracting power from the combustion gases, a combination of an axially juxtaposed series of members respectively axially distinct one from another at least at a radially outer portion, the combination comprising:
an axially forward first member having a radially outer portion including an axially aft first surface and a radially inner portion held by the engine, the radially outer portion being cantilevered from the radially inner portion to enable axial aft movement of the axially aft first surface of the outer portion a first axial length as a result of force applied the first member during engine operation; an axially middle second member including an axially forward second surface, in juxtaposition for registry with the axially aft first surface of the first member, and an axially aft third surface, the second member floating axially in the engine independently of adjacent members in the series of members; and, an axially aft third member including an axially forward fourth surface in juxtaposition for registry during engine operation with the axially aft third surface of the second member across a second gap between the axially aft third surface of the second member and the axially forward fourth surface of the third member of third axial length prior to engine operation; the third axial length of the second gap being selected for assembly of the series of members prior to engine operation to be substantially no greater than the first axially length.
- 2. The turbine engine of claim 1 in which:
the axially aft first surface of the first member is juxtaposed for registry with the axially forward second surface of the second member across a first gap of second axial length prior to engine operation; and, the sum of the second axial length of the first gap and the third axial length of the second gap prior to engine operation is substantially no greater than the first axial length.
- 3. The turbine engine of claim 1 in which:
the first member is a turbine nozzle including a nozzle outer band at the radially outer portion, the axially aft first surface being an aft surface of the nozzle outer band; and, the second member is a shroud segment.
- 4. The turbine engine of claim 3 in which the shroud segment is made of a low ductility material having a low tensile ductility measured at room temperature to be no greater than about 1%.
- 5. The turbine engine of claim 4 in which the low ductility material is a ceramic matrix composite.
- 6. The turbine engine of claim 3 in which the third member is a turbine rear frame of the engine.
- 7. The turbine engine of claim 3 in which the third member is an additional turbine nozzle including an additional nozzle outer band, the axially forward surface of the third member being a forward surface of the additional nozzle outer band.
- 8. In a method of assembling a turbine engine comprising the first, second and third members of claim 1, the steps of:
determining the first axial length during engine operation; and, assembling the first, second and third members in respective axial juxtaposition in the engine to include the second gap having the third axial length substantially no greater than the first axial length.
- 9. The method of claim 8 in which:
the first, second and third members are assemble to include the first gap having the second axial length; the sum of the second axial length and the third axial length being substantially no greater than the first axial length.
- 10. The method of claim 8 in which:
the first member is a turbine nozzle including a nozzle outer band at the radially outer portion, the axially aft first surface being an aft surface of the nozzle outer band; and, the second member is a shroud segment.
- 11. The method of claim 10 in which the third member is a turbine rear frame of the engine.
- 12. The method of claim 10 in which the third member is an additional turbine nozzle including an additional nozzle outer band, the axially forward surface of the third member being a forward surface of the additional nozzle outer band.
Government Interests
[0001] The Government has rights in this invention pursuant to Contract No. F33615-97-C-2778 awarded by the Department of Air Force.