Centrifugal pendulum absorber for a torque converter

What is claimed is: 1. A centrifugal pendulum absorber for a torque converter comprising: a center plate; a roller received in a roller slot formed in the center plate; and a first mass on a rear axial side of the center plate and a second mass on a front axial side of the center plate, the first and second masses being slidable with respect to the center plate along the roller slot, the first mass including a first radially extending section and a first axial protrusion extending axially past a rear-side radially extending axially facing surface of the first radially extending section, the rear-side radially extending axially facing surface extending radially outward from an inner circumference of the first mass to the first axial protrusion, the first axial protrusion extending axially beyond all portions of the rear-side radially extending axially facing surface of the first mass, the second mass including a second radially extending section and a second axial protrusion extending axially past a front-side radially extending axially facing surface of the second radially extending section, the front-side radially extending axially facing surface extending radially outward from an inner circumference of the second mass to the second axial protrusion, the second axial protrusion extending axially beyond all portions of the front-side radially extending axially facing surface of the second mass. 2. The centrifugal pendulum absorber as recited in claim 1 wherein the first and second masses each include an outer circumferential surface, each of the axial protrusions being at the respective outer circumferential surface. 3. The centrifugal pendulum absorber as recited in claim 1 wherein the first and second axial protrusions are formed by first and second wings, the first wing including a rear-facing axial free end, the second wing including a front-facing axial free end. 4. The centrifugal pendulum absorber as recited in claim 3 wherein the first wing includes a first axially extending inner circumferential surface extending axially away from the rear-side radially extending axially facing surface of the first radially extending section toward the first free axial end, the second wing including a second axially extending inner circumferential surface extending axially away from the front-side radially extending axially facing surface of the second radially extending section toward the second free axial end. 5. The centrifugal pendulum absorber as recited in claim 4 wherein the first wing and second wings extend parallel to a center axis of the centrifugal pendulum absorber. 6. The centrifugal pendulum absorber as recited in claim 1 wherein the first and second axial protrusions are formed by first and second folded portions, the first folded portion including a first radially extending folded section axially offset from the first radially extending section, the second folded portion including a second radially extending folded section axially offset from the second radially extending section. 7. The centrifugal pendulum absorber as recited in claim 6 wherein the first folding portion includes a first axially extending section extending from the first radially extending section to the first radially extending folded section, the second folding portion including a second axially extending section extending from the second radially extending section to the second radially extending folded section. 8. The centrifugal pendulum absorber as recited in claim 7 wherein the first folded portion includes a first axially extending inner circumferential surface at a first radially inner edge of the first radially extending folded section, the second folded portion includes a second axially extending inner circumferential surface at a second radially inner edge of the second radially extending folded section. 9. The centrifugal pendulum absorber as recited in claim 6 wherein the first radially extending folded section is folded against the rear-side radially extending axially facing surface of the first radially extending section, the second radially extending folded section is folded against the front-side radially extending axially facing surface of the second radially extending section. 10. The centrifugal pendulum absorber as recited in claim 1 wherein the first mass includes a first slot extending through the rear-side radially extending axially facing surface and the second mass includes a second slot extending through the front-side radially extending axially facing surface, the first slot and the second slot receiving the roller. 11. A torque converter comprising: a turbine; the centrifugal pendulum absorber as recited in claim 1 , an axial rearmost surface of the first axial protrusion extending axially past an axial frontmost surface of the turbine. 12. The torque converter as recited in claim 11 further comprising a spring retainer, an axial frontmost surface of the second axial protrusion extending axially past an axial rearmost surface of the spring retainer. 13. A method of forming a centrifugal pendulum absorber for a torque converter comprising: forming a first mass including a first radially extending section and a first axial protrusion; forming a second mass including a second radially extending section and a second axial protrusion; providing a roller in a slot in a center plate; and providing the first and second masses on the roller such that the first and second masses are slidable with respect to the center plate, the first axial protrusion extends axially past a rear-side radially extending axially facing surface of the first radially extending section, and the second axial protrusion extends axially past a front-side radially extending axially facing surface of the second radially extending section, the rear-side radially extending axially facing surface extending radially outward from an inner circumference of the first mass to the first axial protrusion, the first axial protrusion extending axially beyond all portions of the rear-side radially extending axially facing surface of the first mass, the front-side radially extending axially facing surface extending radially outward from an inner circumference of the second mass to the second axial protrusion, the second axial protrusion extending axially beyond all portions of the front-side radially extending axially facing surface of the second mass. 14. The method as recited in claim 13 wherein the first and second masses each include an outer circumferential surface, each of the axial protrusions being at the respective outer circumferential surface. 15. The method as recited in claim 13 wherein the first and second axial protrusions are formed by first and second wings, the first wing including a rear-facing axial free end, the second wing including a front-facing axial free end. 16. The method as recited in claim 15 wherein the first wing includes a first axially extending inner circumferential surface extending axially away from the rear-side radially extending axially facing surface of the first radially extending section toward the first free axial end, the second wing including a second axially extending inner circumferential surface extending axially away from the front-side radially extending axially facing surface of the second radially extending section toward the second free axial end. 17. The method as recited in claim 13 wherein the first and second axial protrusions are formed by first and second folded portions, the first folded portion including a first radially extending folded section axially o