Method of manufacturing fluid bearing apparatus and spindle motor including press working a cylindrical inner surface provided with a plating layer

What is claimed is: 1. A method of manufacturing a fluid bearing apparatus including a plated bearing member, the method comprising the steps of: a) plating a metallic base material including a cylindrical base material inner circumferential surface to define a plating layer on the base material inner circumferential surface; and b) bringing a contact portion of a pressing member into contact with the plating layer after step a); wherein at least a portion of the pressing member including the contact portion has a Young's modulus equal to or greater than a Young's modulus of the base material; in step b), by bringing the pressing member into contact with the plating layer, a surface of the plating layer is smoothened without causing plastic deformation of the base material; every point on the surface of the plating layer is equidistant or substantially equidistant from a central axis; the pressing member contact portion is a single contact portion, the single contact portion being annular and every point on the contact portion being equidistant or substantially equidistant from the central axis, or the pressing member includes a plurality of contact portions, every point on each contact portion being equidistant or substantially equidistant from the central axis; and in step b), a difference between a distance from the central axis to the contact portion and a distance from the central axis to the surface of the plating layer is equal or substantially equal to an average layer thickness of the plating layer or smaller than the average layer thickness of the plating layer. 2. The method of manufacturing the fluid bearing apparatus according to claim 1 , wherein the pressing member includes: a first contact portion which is distant from the central axis by a first distance; and a second contact portion which is distant from the central axis by a second distance greater than the first distance; and step b) includes the substeps of: b1) bringing the first contact portion of the pressing member into contact with the surface of the plating layer; and b2) bringing the second contact portion of the pressing member into contact with the surface of the plating layer after substep b1). 3. The method of manufacturing the fluid bearing apparatus according to claim 2 , wherein the pressing member includes a steel ball; and in step b), the pressing member is caused to move along the central axis while contacting the surface of the plating layer. 4. The method of manufacturing the fluid bearing apparatus according to claim 3 , further comprising a step of c) defining the base material inner circumferential surface in the base material by a cutting process before step a). 5. The method of manufacturing the fluid bearing apparatus according to claim 4 , wherein the base material includes a metal including a free-cutting element. 6. The method of manufacturing the fluid bearing apparatus according to claim 2 , further comprising a step of c) defining the base material inner circumferential surface in the base material by a cutting process before step a). 7. The method of manufacturing the fluid bearing apparatus according to claim 1 , further comprising a step of c) defining the base material inner circumferential surface in the base material by a cutting process before step a). 8. The method of manufacturing the fluid bearing apparatus according to claim 1 , wherein the base material inner circumferential surface includes a plurality of dynamic pressure grooves each of which is recessed radially outward. 9. The method of manufacturing the fluid bearing apparatus according to claim 1 , wherein a yield stress of the base material is greater than a yield stress of the plating layer. 10. The method of manufacturing the fluid bearing apparatus according to claim 1 , wherein in step b), a nodule projecting from the surface of the plating layer is deformed into a thin film extending along the surface of the plating layer. 11. The method of manufacturing the fluid bearing apparatus according to claim 1 , wherein in step b), a layer thickness of the plating layer is made more even than before step b). 12. A spindle motor comprising a stationary portion and a rotating portion configured to rotate with respect to the stationary portion, wherein the rotating portion is supported through a fluid bearing apparatus manufactured by the method according to claim 1 such that the rotating portion is rotatable with respect to the stationary portion. 13. The spindle motor according to claim 12 , wherein the stationary portion includes an armature; the rotating portion includes the bearing member and a magnet; and the bearing member includes: an inner cylindrical portion including a cylindrical inner circumferential surface on which the plating layer is defined; an outer cylindrical portion configured to hold the magnet with a radially inner side thereof; a connection portion extending radially to join the inner cylindrical portion and the outer cylindrical portion to each other; and an annular disk mount portion on to which a disk is capable of being mounted.