Bearing assembly with split outer ring having interference fit tabs and method of assembly of bearing

What is claimed is: 1. A bearing comprising: a split outer race having a first outer race member and a second outer race member that form an annular ring; an activation member rotatable from a first position to a second position, the activation member at least partially disposed in the annular ring; and at least one locking feature defined by the first outer race member, the second outer race member and the activation member, the at least one locking feature having an unlocked position and a locked position, the unlocked position corresponding to the first position of the activation member and the locked position corresponding to the second position of the activation member; wherein in the locked position the activation member cooperates with the first outer race member and the second outer race member to create an interference fit; and wherein: the first outer race member has a first edge and a second edge, the first edge having a first indentation circumferentially extending therein and the second edge having a first tab projecting circumferentially therefrom; the second outer race member has a third edge and a fourth edge, the third edge having a second indentation circumferentially extending therein and the fourth edge having a second tab projecting circumferentially therefrom; and wherein the interference fit is defined by the first tab of the first outer race member being positioned in the second indentation of the second outer race member and the second tab of the second outer race member being positioned in the first indentation of the first outer race member. 2. The bearing of claim 1 , wherein about 90 degree rotation of the activation member transforms the locking feature into the locked position. 3. The bearing of claim 1 , wherein the interference fit is in the range of up to about 5 mm (0.2 inch). 4. The bearing of claim 1 , wherein the interference fit is about 0.3 mm (0.012 inch). 5. The bearing of claim 1 , further comprising an axial stiffener member in the split outer race, the axial stiffener member being configured to prevent the split outer race from becoming conical during manufacturing. 6. The bearing of claim 1 , wherein the at least one of the first tab, the second tab, the first indentation and the second indentation have a width of a predetermined magnitude to impart axial stiffness on the split outer race. 7. The bearing of claim 6 , wherein the width is about 19 to 81 percent of a width of a contact load zone of the split outer race. 8. The bearing of claim 6 , wherein at least one of the first tab and the second tab have a length of 38 percent to 88 percent of the width. 9. The bearing of claim 6 , wherein the width is a minimum of 25 percent of a width of a contact load zone of the split outer race. 10. The bearing of claim 9 , wherein at least one of the first tab and the second tab have a length of 38 percent to 88 percent of the width. 11. The bearing of claim 6 , wherein the width is about 13 to 83 percent of a width of a contact load zone of the split outer race. 12. The bearing of claim 6 , wherein the width is a minimum of 52 percent of a width of a contact load zone of the split outer race. 13. The bearing of claim 6 , wherein the width is a minimum of 14 percent of a width of a contact load zone of the split outer race. 14. The bearing of claim 1 , wherein the split outer race comprises a radially outward extending flange extending circumferentially therearound. 15. The bearing of claim 1 , wherein: the first edge having a third indentation circumferentially extending therein and the second edge having a third tab projecting circumferentially therefrom; the third edge having a fourth indentation circumferentially extending therein and the fourth edge having a fourth tab projecting circumferentially therefrom; and wherein the interference fit is further defined by the third tab of the first outer race member being positioned in the fourth indentation of the second outer race member and the fourth tab of the second outer race member being positioned in the third indentation of the first outer race member. 16. A method of assembling a bearing having a split outer race, the method comprising: providing a split outer race having a first outer race member and a second outer race member that cooperate to form an annular ring; providing an activation member; providing at least one locking feature defined by the first outer race member, the second outer race member and the activation member, the locking feature having an unlocked position and a locked position; positioning the activation member in the first outer race member; forming the annular ring by engaging the second outer race member with the first outer race member such that the activation member is at least partially disposed in the annular ring; and rotating the activation member from a first position to a second position to move the locking feature from the unlocked position to the locked position. 17. The method of assembling a bearing of claim 16 , further comprising: creating an interference fit between the first outer race member, the second outer race member and the activation member by rotating the activation member from the first position to the second position to move the locking feature from the unlocked position to the locked position. 18. The method of assembling a bearing of claim 17 , further comprising: providing a first indentation circumferentially extending into a first edge of the first outer race member; providing a first tab projecting circumferentially from a second edge of the first outer race member; providing a second indentation circumferentially extending into a third edge of the second outer race member; providing a second tab projecting circumferentially from a fourth edge of the second outer race member; and forming the annular ring by positioning the first tab of the first outer race member in the second indentation of the second outer race member, and positioning the second tab of the second outer race member in the first indentation of the first outer race member. 19. The method of assembling a bearing of claim 17 , further comprising rotating the activation member about 90 degrees to create the interference fit. 20. The method of assembling a bearing of claim 17 , further comprising rotating the activation member to create an interference fit in the range of up to about 5 mm (0.2 inch). 21. The method of assembling a bearing of claim 17 , further comprising rotating the activation member to create an interference fit of about 0.3 mm (0.012 inch). 22. A method of assembling a bearing having a split outer race, the method comprising: providing a split outer race having a first outer race member and a second outer race member that cooperate with each other to form an annular ring, the annular ring defining a first bore extending therethrough, the first bore being concentric about a first axis; providing a first separation face and a second separation face on the first outer race member and a third separation face and a fourth separation face on the second outer race member; providing a concave spherical interior surface on each of the first outer race member and the second outer race member; providing an activation member having a convex spherical exterior surface extending between a first axial end and a second axial end of the activation member, the activation member defining a second bore extending therethrough, the sec