Powder metal net shape alignment feature

What is claimed is: 1. A powder metal component for a transmission, the powder metal component comprising: a body portion defining a substantially planar major surface; and at least three radially spaced-apart retention features formed in the body portion in a green state, prior to sintering, wherein each retention feature comprises a bore having a shaped geometry extending between an upper region adjacent the major surface of the body portion, and a lower region defining a radius of curvature. 2. The powder metal component according to claim 1 , wherein the body portion is circular and each retention feature defines a length dimension extending along a longitudinal axis that is substantially aligned with a radius of the body portion, and a width dimension that is less than the length dimension. 3. The powder metal component according to claim 1 , wherein each bore is defined by two opposing, substantially parallel sidewalls and a substantially U-shaped bottom portion. 4. The powder metal component according to claim 3 , wherein the substantially U-shaped bottom portion comprises a center region, defined by the radius of curvature, and connecting two angled bottom walls. 5. The powder metal component according to claim 4 , wherein the two angled bottom walls cooperate to define an angle of about 90 degrees. 6. The powder metal component according to claim 1 , wherein the powder metal component is a cover member for a planetary carrier assembly of an automatic transmission. 7. The powder metal component according to claim 6 , wherein the cover member comprises a powder metal cover plate having a plurality of cover legs extending a distance from the cover plate. 8. The powder metal component according to claim 7 , wherein each retention feature is located adjacent a respective cover leg. 9. The powder metal component according to claim 8 , comprising four equally spaced apart cover legs and four equally spaced-apart retention features disposed in low stress zones of the body portion. 10. The powder metal component according to claim 1 , wherein the retention features are aligned and configured for receiving claws from a radial member for co-rotational movement with the radial member. 11. A planetary carrier sub-assembly for aligning rotational components of an automatic transmission, the carrier sub-assembly comprising: a radial member comprising a plurality of claws; and a powder metal component having a body portion defining: a substantially planar major surface; and at least three radially spaced-apart retention features formed in the body portion in a green state, prior to sintering, configured for receiving the claws from the radial member for co-rotational movement with the radial member, wherein each retention feature comprises a bore having a shaped geometry defined by two opposing, substantially parallel sidewalls and a substantially U-shaped bottom portion. 12. The planetary carrier sub-assembly according to claim 11 , wherein the powder metal component is a unitary cover member comprising a cover plate having a plurality of integral cover legs extending therefrom. 13. The planetary carrier sub-assembly according to claim 11 , wherein the powder metal component comprises four equally spaced-apart retention features disposed in low stress zones of the body portion. 14. The planetary carrier sub-assembly according to claim 11 , wherein the substantially U-shaped bottom portion comprises a center region, defined by a radius of curvature, and connecting two angled bottom walls. 15. The planetary carrier sub-assembly according to claim 11 , wherein the radial member comprises a thrust washer or a race for a thrust bearing. 16. A method for forming a powder metal component with a plurality of net-shaped retention features therein, the method comprising: filling a die mold with a powder metal mixture; applying a pressure to the powder metal mixture to shape a green compact including at least three spaced-apart retention features defined in a major surface of the green compact, each retention feature comprising a bore defined by two opposing, substantially parallel sidewalls and a substantially U-shaped bottom portion; opening the die mold and allowing the green compact to expand in a radial direction aligned with a longitudinal axis of each retention feature, thereby minimizing interference between the green compact and protrusions extending from the die mold; and sintering the green compact to form the powder metal component. 17. The method according to claim 16 , wherein the U-shaped bottom portion comprises a center region defining a radius of curvature and connecting two angled bottom walls. 18. The method according to claim 17 , allowing the green compact to expand in a radial direction aligned with a longitudinal axis of each retention feature comprises allowing a portion of the die mold to slidably engage with the bottom walls of the retention features. 19. The method according to claim 16 , wherein opening the die mold comprises raising or lowering a portion of the die mold with respect to the green compact. 20. The method according to claim 16 , wherein the step of applying pressure to the powder metal mixture comprises inserting at least one tool into the die mold to coordinate a final desired shape of the powder metal component.