Thrust washer including wet friction material with resin coated surface

What is claimed is: 1. A thrust washer comprising: a wet friction material including a fiber matrix impregnated with resin; and a phenolic resin layer coating at least one outer surface of the wet friction material, the phenolic resin layer having a lower coefficient of friction than the wet friction material, the thrust washer being configured for helping to prevent wear between two rotating components. 2. The thrust washer as recited in claim 1 wherein the phenolic resin layer is a laminated sheet of phenolic resin. 3. The thrust washer as recited in claim 1 wherein the wet friction material includes surface pores, a phenolic resin of the phenolic resin layer filling the surface pores. 4. The thrust washer as recited in claim 1 wherein the phenolic resin layer includes grooves formed in an outer surface thereof. 5. The thrust washer as recited in claim 1 further comprising a metal layer, the wet friction material being attached to the metal layer. 6. The thrust washer as recited in claim 1 wherein the phenolic resin layer includes a first phenolic resin layer on a first outer surface of the wet friction material and a second phenolic resin layer on a second outer surface of the wet friction material. 7. The thrust washer as recited in claim 6 further comprising a metal layer, the wet friction material including a first wet friction material layer on a first outer surface of the metal layer and a second wet friction material layer on a second outer surface of the metal layer, the first wet friction material layer including the first outer surface of the wet friction material, the second wet friction material layer including the second outer surface of the wet friction material. 8. A torque converter comprising the thrust washer recited in claim 1 . 9. The torque converter as recited in claim 8 further comprising a first component and a second component, at least one of the first component and the second component subjecting the other of the first and second component to a thrust, the thrust washer being positioned between the first and second components to absorb the thrust and to help to prevent wear between the first and second components. 10. A thrust washer comprising: a single wet friction material layer; and a first phenolic resin layer coating a first outer surface of the wet friction material layer to form a first outer surface of the thrust washer and a second phenolic resin layer coating a second outer surface of the wet friction material layer opposite of the first outer surface to form a second outer surface of the thrust washer, the first and second phenolic resin layers each having a lower coefficient of friction than the wet friction material layer, the thrust washer being configured for helping to prevent wear between two rotating components.