Friction engagement element, dry clutch, and method of manufacturing friction engagement element

The invention claimed is: 1. A friction engagement element comprising: a friction member comprising resin; and a metal member having a sliding surface slidable on the friction member, wherein the friction member comprises: an aged layer at an outermost layer of the friction member, the aged layer being a carbonized layer, and a hardened layer in abutment with an inner side of the aged layer in a thickness direction of the friction member, and wherein the sliding surface of the metal member comprises: a plurality of recesses, and transferred film of the aged layer of the friction member transferred and adhered to insides of the plurality of recesses through sliding between the friction member and the metal member. 2. The friction engagement element according to claim 1 , wherein the plurality of recesses include fine recesses formed by blasting. 3. The friction engagement element according to claim 1 , wherein the plurality of recesses include grooves extending concentrically about a predetermined spot on the metal member. 4. The friction engagement element according to claim 1 , wherein the plurality of recesses include a plurality of depressions formed at a predetermined interval. 5. A friction engagement element comprising: a friction member comprising resin; and a metal member having a sliding surface slidable on the friction member, wherein the friction member comprises: an aged layer at an outermost layer of the friction member, the aged layer being a carbonized layer, and a hardened layer in abutment with an inner side of the aged layer in a thickness direction of the friction member, wherein the sliding surface of the metal member has a plurality of recesses, wherein the plurality of recesses are configured to retain a transferred film of the aged layer of the friction member to be transferred and adhered to insides of the plurality of recesses by sliding when the friction member and the metal member slide relative to each other. 6. The friction engagement element according to claim 5 , wherein a depth of each of the plurality of recesses is smaller than thickness of the aged layer of the friction member. 7. The friction engagement element according to claim 5 , wherein the plurality of recesses include fine recesses formed by blasting. 8. The friction engagement element according to claim 7 , wherein surface roughness Rz of the sliding surface including the fine recesses is between 3 μm and 10 μm inclusive. 9. The friction engagement element according to claim 5 , wherein the plurality of recesses include grooves extending concentrically about a predetermined spot on the metal member. 10. The friction engagement element according to claim 9 , wherein a depth of each of the grooves is between 6 μm and 16 μm inclusive. 11. The friction engagement element according to claim 5 , wherein the plurality of recesses include a plurality of depressions formed at a predetermined interval. 12. The friction engagement element according to claim 11 , wherein a depth of each of the depressions is between 3 μm and 9 μm inclusive and a width of each of the depressions is between 0.5 mm and 2.3 mm inclusive. 13. A dry clutch comprising the friction engagement element according to claim 1 . 14. A friction engagement element comprising: a friction member; and a metal member having a sliding surface slidable on the friction member, wherein the friction member comprises: an aged layer made of a first friction material comprising resin at an outermost layer of the friction member, a base material made of a second friction material comprising resin, and a hardened layer between the base material and the aged layer and in abutment with an inner side of the aged layer in a thickness direction of the friction member, and wherein the sliding surface of the metal member comprises: a plurality of recesses, and a transferred film of the aged layer of the friction material transferred and adhered to insides of the plurality of recesses through sliding between the friction member and the metal member. 15. The friction engagement element according to claim 14 , wherein the first and second friction materials are made from a same material. 16. The friction engagement element according to claim 14 , wherein the hardened layer has hardness that is higher than that of the base material and the aged layer. 17. The friction engagement element according to claim 14 , wherein the hardened layer has a thickness less than that of the aged layer.