Method for manufacturing bearing ring member

What is claimed is: 1. A manufacturing method for a bearing ring member having a raceway surface formed around at least one of an outer-circumferential surface and inner-circumferential surface, the method comprising performing a forging process on a metal raw material, wherein the metal raw material is configured as a solid columnar member or as a tubular member; the metal raw material comprises: a first metal part and a second metal part, the second metal part being made of a metal material different from a metal material of the first metal part and press-fitted to a circumferential surface of the first metal part or embedded within the first metal part, or being made of a metal material obtained by use of a modifying process performed on the metal material of the first metal part; and the second metal part is provided only in an axial portion of the metal raw material which flows to a portion where metal characteristics or processing characteristics of the metal material of the second metal part are required in use of or at processing of the bearing ring member. 2. The manufacturing method for a bearing ring member according to claim 1 , wherein the meta characteristics of the metal material of the second metal part include greater fatigue strength and wear resistance than the metal material of the first metal part, and the portion of the bearing ring member to which the second metal part flows includes the raceway surface and a vicinity of the raceway surface. 3. The manufacturing method for a bearing ring member according to claim 1 , wherein the forging process is performed such that portions of the metal material of the second metal part are sandwiched in an axial direction between portions of the metal material of the first metal part. 4. The manufacturing method for a bearing ring member according to claim 1 , wherein the raceway surface is an outer-ring raceway surface that is formed around the inner circumferential surface of the bearing ring member; the first metal part has a tubular configuration; the second metal part has a solid columnar configuration or a tubular configuration; and the second metal part is provided on an inner surface of the first metal part. 5. The manufacturing method for a bearing ring member according to claim 1 , wherein the raceway surface is an inner-ring raceway that is formed around the outer-circumferential surface of the bearing ring member; the first metal part has a solid columnar configuration or a tubular configuration; the second metal part has a tubular configuration; and the second metal part is provided on an outer surface of the first metal part. 6. The manufacturing method for a bearing ring member according to claim 1 , wherein the bearing ring member has an inner-ring raceway that is formed around the outer-circumferential surface of the bearing ring member, and an outer-ring raceway that is formed around the inner-circumferential surface of the bearing ring member, the inner-ring raceway and outer-ring raceway respectively corresponding to the raceway surface; the first metal part has a tubular configuration; the second metal part comprises a relatively small-diameter metal part with a solid columnar configuration or a tubular configuration, and having an outer diameter substantially the same as an inner diameter of the first metal part, and a relatively large-diameter metal part with a tubular configuration and having an inner diameter substantially the same as an outer diameter of the first metal part; the relatively small-diameter metal part is provided on an inner surface of the first metal part; and the relatively large-diameter metal part is provided on an outer surface of the first metal part. 7. The manufacturing method for a bearing ring member according to claim 2 , wherein the raceway surface is an outer-ring raceway surface that is formed around the inner circumferential surface of the bearing ring member; the first metal part has a tubular configuration; the second metal part has a solid columnar configuration or a tubular configuration; and the second metal part is provided on an inner surface of the first metal part. 8. The manufacturing method for a bearing ring member according to claim 2 , wherein the raceway surface is an inner-ring raceway that is formed around the outer-circumferential surface of the bearing ring member; the first metal part has a solid columnar configuration or a tubular configuration; the second metal part has a tubular configuration; and the second metal part is provided on outer surface of the first metal part. 9. The manufacturing method for a bearing ring member according to claim 2 , wherein the bearing ring member has an inner-ring raceway that is formed around the outer-circumferential surface of the bearing ring member, and an outer-ring raceway that is formed around the inner-circumferential surface of the bearing ring member, the inner-ring raceway and outer-ring raceway respectively corresponding to the raceway surface; the first metal part has a tubular configuration; the second metal part comprises a relatively small-diameter metal part with a solid columnar configuration or a tubular configuration, and having an outer diameter substantially the same as an inner diameter of the first metal part, and a relatively larger diameter metal part with a tubular configuration and having an inner diameter substantially the same as an outer diameter of the first metal part; the relatively small-diameter metal part is provided on an inner surface of the first metal part; and the relatively large-diameter metal part is provided on an outer surface of the first metal part.