A fan-turbine rotor assembly includes one or more turbine ring rotors. Each turbine ring rotor is cast as a single integral annular ring. By forming the turbine as one or more rings, leakage between adjacent blade platforms is minimized which increases engine efficiency. Assembly of the turbine ring
A fan-turbine rotor assembly includes one or more turbine ring rotors. Each turbine ring rotor is cast as a single integral annular ring. By forming the turbine as one or more rings, leakage between adjacent blade platforms is minimized which increases engine efficiency. Assembly of the turbine ring rotors to the diffuser ring includes axial installation and radial locking of each turbine ring rotor.
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1. A turbine ring rotor comprising: first and second annular tip shrouds defined about an axis;first and second annular bases defined about said axis;a plurality of first turbine blades mounted between said first annular tip shroud and said first annular base;a plurality of second turbine blades mou
1. A turbine ring rotor comprising: first and second annular tip shrouds defined about an axis;first and second annular bases defined about said axis;a plurality of first turbine blades mounted between said first annular tip shroud and said first annular base;a plurality of second turbine blades mounted between said second annular tip shroud and said second annular base, said second turbine blades spaced, relative to the axis, from said first turbine blades; andwherein each of said first and second of turbine blades defines a turbine blade passage therethrough, each of said turbine blade passages extending through a respective one of said first and second annular tip shrouds and a respective one of said first and second annular bases, said turbine blade passages arranged such that fluid flowing through said turbine blade passages is later expanded over said first turbine blades. 2. The turbine ring rotor as recited in claim 1, further comprising a base seal extending from said second annular base. 3. The turbine ring rotor as recited in claim 2, wherein said first annular base includes an extended axial stepped ledge. 4. The turbine ring rotor as recited in claim 1, wherein each of said first turbine blades, said first annular tip shroud and said first annular base are a single casting. 5. The turbine ring rotor as recited in claim 1, wherein each of said second turbine blades, said second annular tip shroud and said second annular base are a single casting. 6. The turbine ring rotor as recited in claim 1, further including a segmented attachment lug, said segmented attachment lug being segmented into first and second attachment lugs associated with a respective one of the first and second annular bases. 7. The turbine ring rotor as recited in claim 1, wherein first and second of turbine blades rotate about said axis. 8. The turbine ring rotor as recited in claim 7, further including a plurality of stators positioned axially between said first and second turbine blades. 9. The turbine ring rotor as recited in claim 8, wherein said stators are rotationally fixed relative to said axis. 10. The turbine ring rotor as recited in claim 1, further including a first tip seal radially outward of said first annular tip shroud, and further including a second tip seal radially outward of said second annular tip shroud. 11. The turbine ring rotor as recited in claim 10, wherein said turbine passages direct a core airflow radially through said first and second tip seals. 12. The turbine ring rotor as recited in claim 11, wherein said first and second tip seals extend from said first and second annular tip shrouds, respectively, towards a static outer support structure. 13. The turbine ring rotor as recited in claim 1, wherein said fluid flowing through said turbine blade passages is later expanded over said first turbine blades and said second turbine blades. 14. A turbine ring rotor comprising: first and second annular tip shrouds defined about an axis;first and second annular bases defined about said axis;a plurality of first turbine blades mounted between said first annular tip shroud and said first annular base;a plurality of second turbine blades mounted between said second annular tip shroud and said second annular base, said second turbine blades spaced, relative to the axis, from said first turbine blades;wherein each of said first and second of turbine blades defines a turbine blade passage therethrough, each of said turbine blade passages extending through a respective one of said first and second annular tip shrouds and a respective one of said first and second annular bases;a segmented attachment lug, said segmented attachment lug being segmented into first and second attachment lugs associated with a respective one of the first and second annular bases; anda plurality of slot surfaces formed in a diffuser surface, said diffuser surface located radially inward of said first and second attachment lugs, said first and second attachment lugs aligned with said slot surfaces. 15. The turbine ring rotor as recited in claim 14, wherein said plurality of slot surfaces provide one of a dovetail-type, a bulb-type, and a fir tree-type engagement. 16. A gas turbine engine, comprising: a plurality of fan blades configured to rotate about an axis;first and second annular tip shrouds defined about said axis;first and second annular bases defined about said axis;a plurality of first turbine blades mounted between said first annular tip shroud and said first annular base, said first turbine blades mounted radially outward of said fan blades;a plurality of second turbine blades mounted between said second annular tip shroud and said second annular base, said second turbine blades spaced, relative to the axis, from said first turbine blades, said second turbine blades mounted radially outward of said fan blades; andwherein each of said first and second of turbine blades defines a turbine blade passage therethrough, each of said turbine blade passages extending through a respective one of said first and second annular tip shrouds and a respective one of said first and second annular bases. 17. The gas turbine engine as recited in claim 16, wherein said fan blades are hollow and define radial core airflow passages, said radial core airflow passages in fluid communication with said turbine blade passages. 18. The gas turbine engine as recited in claim 17, including a combustor, and wherein fluid passing through said radial core airflow passages and said turbine blade passages is directed to said combustor and is then expanded over said first and second turbine blades. 19. The gas turbine engine as recited in claim 18, wherein said combustor is positioned radially outward of said fan blades. pq,12
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