Two-part steel piston for internal combustion engines

What is claimed: 1. A method for producing a piston having at least one cooling channel for an internal combustion engine that is produced from at least one upper part and a lower part, where the upper part and the lower part of the piston are produced using a forging process, characterized in that during the forging of the upper part in an area of the cooling channel of the upper part in addition at least one rib-like element is forged at the same time and/or during the forging of the lower part in an area of the cooling channel of the lower part in addition at least one rib-like element is forged at the same time, and forging at the same time of the respective upper part and lower part a central weld support continuously, circumferentially and radially extending from the cooling channel radially inward to a piston stroke axis; and joining the upper and lower parts in the central weld area substantially all along the central weld support. 2. A method for producing a piston having at least one cooling channel for an internal combustion engine that are produced from at least one upper part and a lower part, wherein the cooling channel of the piston is formed using the upper part and the lower part, and the upper part and the lower part is produced using a forging process, wherein, during the forging of the upper part in an area of the cooling channel of the upper part additionally, at least one rib-like element, is forged at the same time, and forging at the same time of the respective upper part and the lower part a central weld support continuously, circumferentially and radially extending from the cooling channel radially inward to a piston stroke axis; and joining the upper and lower parts in the central weld area substantially all along the central weld support. 3. The method from claim 2 , wherein the rib-like element is forged perpendicular to a direction of circulation of coolant fluid in the cooling channel. 4. The method in accordance with claim 2 , further comprising: an external weld support positioned radially outward of the central weld support, the external and central weld supports forged at the same time as the upper part and the lower part. 5. The method of claim 3 comprising: forming the rib-like element as a rib. 6. The method of claim 5 wherein the rib comprises opposing ends and a protruding edge positioned between the opposed ends and extending into the cooling chamber, the protruding edge having a non-linear portion between the opposed ends. 7. The method in accordance with claim 4 , wherein a weld plane in the area of the central weld support comprises a curved portion in a radial direction between the cooling chamber and the piston stroke axis. 8. The method of claim 7 wherein the piston upper part central weld support weld plane curved portion defines a concave cavity along the stroke axis toward a combustion bowl. 9. The method from claim 2 wherein joining the upper and lower part step comprises friction welding. 10. A method for producing a piston for an internal combustion engine having at least one cooling channel, the piston is produced from at least one upper part and one lower part, where the cooling channel of the piston is formed using the upper part and the lower part, and the upper part and the lower part of the piston is produced using a forging process, wherein during the forging of the lower part in an area of the cooling channel of the lower part to be forged at least one rib-like element is forged at the same time, and forging at the same time of the respective upper part and the lower part a central weld support continuously, circumferentially and radially extending from the cooling channel radially inward to a piston stroke axis; and joining the upper and lower parts in the central weld area substantially all along the central weld support. 11. A piston for an internal combustion engine that has at least one cooling channel and includes at least an upper part and a lower part, where the cooling channel of the piston is formed using the upper part and the lower part, and has at least one rib-like element formed in the cooling channel; and the respective piston upper part and lower part each comprising a complementary central weld support surface continuously and circumferentially extending from the cooling channel radially inward to a piston stroke axis, the piston upper part central weld support surface and the piston lower part central weld support surface defining a circumferential central weld support continuously extending from the cooling channel radially to the piston stroke axis on theand joining of the piston upper and lower parts. 12. The piston from claim 11 wherein the piston is formed of a steel material. 13. The piston in accordance with claim 11 , wherein the rib-like element is disposed transversely to a circulation direction of a cooling medium in the cooling channel. 14. The piston in accordance with claim 11 , further comprises an external weld support, the external weld support defining a first welding plane and the central weld support defining a second welding plane, the first and second welding planes positioned in one of the same weld plane or a different weld plane respectively. 15. The piston in accordance with claim 14 , wherein the central weld support second welding plane comprises a curved portion in a radial direction between the cooling chamber and the piston stroke axis. 16. The piston of claim 15 wherein the piston upper part central weld support surface defines a concave cavity along the stroke axis toward a combustion bowl. 17. The piston of claim 14 wherein the different weld plane comprises the first weld plane positioned at a different height in a direction parallel to the piston stroke axis than the second weld plane. 18. The piston of claim 11 wherein: the rib-like element is a rib.