Method of manufacturing round steel billet

The invention claimed is: 1. A method of manufacturing a round steel billet by continuous casting comprising: in a local cooling step, applying inhomogeneous forced cooling to a cast product during the continuous casting in such a manner that the inhomogeneous forced cooling cools polar opposites on an outer periphery of the cast product more strongly than remaining portions of the cast product other than the polar opposites, the inhomogeneous forced cooling is started at a point of time within a terminal period of solidification and is stopped when a temperature of an axial core falls within a temperature range from a temperature below a solidification point to the solidification point minus 190° C., and a temperature deviation δ which is a maximum value of surface temperature difference between the polar opposites and the remaining portions at the time of completion of recuperation after the forced cooling is stopped is set to 10° C. or above; and in a rolling reduction step, applying rolling reduction to the cast product in the opposite directions of the polar opposites by reduction rolls in the course from the completion of solidification to the completion of the recuperation of the cast product so that rolling reduction r which is a reduction ratio of a distance between middle points of the polar opposites is set to a value exceeding 0% and 5% or less; wherein polar opposites on the outer periphery indicate both an outer periphery which intersects with an angle domain having a center angle θ exceeding 0 degree and 120 degrees or less about an axial core in a plane including a transverse cross-section of the cast product, and an outer periphery which intersects with an angle domain obtained by rotating the angle domain by 180 degrees about the axis core; and wherein the terminal period of solidification is a period where a solidification rate at the center becomes 0.5 or more and 1.0 or less. 2. The method of manufacturing a round steel billet according to claim 1 , wherein the temperature deviation δ is set to 30° C. or below. 3. The method of manufacturing a round steel billet according to claim 2 , wherein the rolling reduction r is set to 1% or more and 3% or less. 4. The method of manufacturing a round steel billet according to claim 1 , wherein the rolling reduction r is set to 1% or more and 3% or less.