Clutch assembly with a tab rivet connection and method thereof

What I claim is: 1. A clutch assembly, comprising: a hub including a first radially disposed portion with a plurality of circumferentially aligned slots passing through the first radially disposed portion; and, a ring gear carrier including a plurality of protrusions disposed in the plurality of circumferentially aligned slots and in compressive engagement with the hub to fixedly connect the hub to the carrier, wherein: each slot in the plurality of circumferentially aligned slots extends further in a circumferential direction than in a radial direction; each protrusion in the plurality of protrusions extends further in the circumferential direction than in the radial direction; the first radially disposed portion includes first and second surfaces facing in opposite axial directions; the ring gear carrier includes a second radially disposed portion in contact with the first surface; and, each protrusion in the plurality of protrusions includes a respective segment in contact with the second surface. 2. The clutch assembly of claim 1 , wherein respective openings formed by the plurality of circumferentially aligned slots are wholly surrounded by the first radially disposed portion. 3. The clutch assembly of claim 1 , wherein each protrusion from the plurality of protrusions includes a respective distal end forming a respective portion of an edge for the ring gear carrier. 4. The clutch assembly of claim 1 , wherein: each slot in the plurality of circumferentially aligned slots includes a respective radially outermost edge; first respective corners formed by the first radially disposed portion and the respective radially outermost edge are rounded; the ring gear carrier includes a second radially disposed portion; and, second respective corners formed by the second radially disposed portion and the plurality of protrusions are rounded and matingly engaged with the first respective corners. 5. The clutch assembly of claim 4 , wherein: first respective segments of the second radially disposed portion radially outward from the second respective corners are under a first amount of compressive stress; and, second respective segments of the second radially disposed portion axially aligned with the second respective corners are under a second amount of compressive stress, greater than the first amount of compressive stress. 6. The clutch assembly of claim 1 , wherein said respective segment includes a third surface facing in a same axial direction as the second surface and including a circumferentially disposed groove. 7. The clutch assembly of claim 1 , wherein: the first radially disposed portion includes first and second sides facing in opposite axial directions; the ring gear carrier includes a second radially disposed portion in contact with the first side; the first side includes a plurality of indented segments; and, the plurality of circumferentially aligned slots are located in the plurality of indented segments. 8. A method of fabricating a clutch assembly, comprising: forming a plurality of circumferentially aligned slots in a first radially disposed portion of a hub, such that each slot in the plurality of circumferentially aligned slots extends further in a circumferential direction than in a radial direction; forming a plurality of protrusions extending from a second radially disposed portion of a ring gear carrier such that each protrusion in the plurality of protrusions extends further in the circumferential direction than in the radial direction; inserting the plurality of protrusions in the plurality of circumferentially aligned slots such that respective segments of the plurality of protrusions extend beyond the first radially disposed portion; and, exerting force on the plurality of protrusions such that the plurality of protrusions compressively engage the first radially disposed portion to fixedly connect the hub to the ring gear carrier, wherein forming a plurality of protrusions includes axially bending a plurality of radially aligned segments forming a portion of an inner circumference for the second radially disposed portion. 9. The method of claim 8 , wherein forming a plurality of circumferentially aligned slots includes wholly surrounding respective openings formed by the plurality of circumferentially aligned slots with the first radially disposed portion. 10. The method of claim 8 , wherein: forming a plurality of circumferentially aligned slots includes rounding first respective corners formed by the first radially disposed portion and respective radially outermost edges of the plurality of circumferentially aligned slots; and, forming a plurality of protrusions includes rounding second respective corners formed by the second radially disposed portion and the plurality of protrusions, the method further comprising matingly engaging the first and second respective corners. 11. The method of claim 10 , wherein exerting force on the plurality of protrusions includes: placing first respective segments of the first radially disposed portion, radially outward from the first respective corners, under a first amount of compressive stress; and, placing second respective segments of the first radially disposed portion, axially aligned with the second respective corners, under a second amount of compressive stress, greater than the first amount of compressive stress. 12. The method of claim 8 , wherein: inserting the plurality of protrusions in the plurality of circumferentially aligned slots includes extending respective segments of the plurality of protrusions axially beyond the first radially disposed portion; and, exerting force on the plurality of protrusions includes displacing respective portions of the respective segments to contact a surface of the first radially disposed portion facing away from the ring gear carrier. 13. The method of claim 12 , wherein displacing respective portions of the respective segments includes indenting a surface of the respective portions, facing away from the ring gear carrier, to displace the respective portions in radially inward and outward directions, and to form respective circumferentially disposed grooves. 14. A clutch assembly, comprising: a hub including: a first radially disposed portion including a first surface facing in a first axial direction; and, a plurality of circumferentially aligned slots in the first radially disposed portion; and, a ring gear carrier including: a second radially disposed portion: including a second surface in contact with the first surface and facing in a second axial direction opposite the first axial direction; and, a plurality of protrusions: forming a radially innermost circumference for the ring gear carrier; extending in the second axial direction from the second radially disposed portion; disposed in the plurality of circumferentially aligned slots; forming respective portions of the ring gear carrier extending furthest in the second axial direction; and, in compressive engagement with the first radially disposed portion to fixedly connect the hub to the carrier, wherein: respective openings formed by the plurality of circumferentially aligned slots are wholly surrounded by the first radially disposed portion; each slot in the plurality of circumferentially aligned slots extends further in a circumferential direction than in a radial direction; and, each protrusion in the plurality of protrusions extends further in the circumferential direction than in the radial direction. 15. The clutch assembly of claim 14 , wherein: the hub includes respective first ro