Press-fit combination bearing

What is claimed is: 1. A combined axial and radial bearing assembly, comprising: a radial bearing including: a radial bearing outer ring having a constant outside diameter and an inside diameter defining an outside race, and radially inwardly extending flanges located at axial ends thereof; a radial bearing cage having rolling element pockets defined therein and an axially extended rim on a first side; and radial rolling elements located in at least some of the pockets and arranged to roll on the outside race; an axial bearing including: an axial bearing ring having a radially extending surface that defines a thrust race, and an axially extending flange connected to a radially inner end thereof; an axial bearing cage having rolling element pockets defined therein; and thrust rolling elements located in at least some of the pockets of the axial bearing cage; wherein the axially extending flange of the axial bearing is press fit on the outside diameter of the radial bearing outer ring in a region aligned with the axially extended rim of the radial bearing cage. 2. The bearing assembly of claim 1 , wherein the axially extending flange has radially outwardly directed retention tabs formed thereon for retaining the axial bearing cage. 3. The bearing assembly of claim 1 , further comprising a radially outwardly extending flange located on an axial end of the axially extended rim of the axial bearing cage that is guided by a first one of the radially inwardly directed flanges of the radial bearing outer ring. 4. The bearing assembly of claim 1 , wherein at least one of the radially inwardly directed flanges is stamped in the radial bearing outer ring. 5. The bearing assembly of claim 1 , wherein at least one of the radially inwardly directed flanges is roll flanged. 6. The bearing assembly of claim 1 , wherein the radial rolling elements and the thrust rolling elements are needles. 7. A method of assembling a combined axial and radial bearing assembly, the method comprising: providing a radial bearing including a radial bearing outer ring having a constant outside diameter and an inside diameter defining an outside race, and radially inwardly extending flanges located at axial ends thereof, a radial bearing cage having rolling element pockets defined therein and an axially extended rim on a first side, and radial rolling elements located in at least some of the pockets and arranged to roll on the outside race; providing an axial bearing including an axial bearing ring having a radially extending surface that defines a thrust race, and an axially extending flange connected to a radially inner end thereof, the axially extending flange having an inside diameter that is less than an outside diameter of the radial bearing outer ring in a pre-assembled state, an axial bearing cage having rolling element pockets defined therein, and thrust rolling elements located in at least some of the pockets of the axial bearing cage; and press fitting the axially extending flange of the axial bearing on the outside diameter of the radial bearing outer ring in a region aligned with the axially extended rim of the radial bearing cage. 8. The method of claim 7 , further comprising forming the radial bearing outer ring as a drawn cup with a first one of the radially inwardly extending flanges formed therewith by stamping, assembling the radial bearing cage with radial rolling elements in the drawn cup, and roll forming a second one of the radially inwardly directed flanges.