Camshaft and associate manufacturing method

The invention claimed is: 1. A camshaft for an internal combustion engine comprising: a shaft; and at least one cam thermally joined to the shaft via a joining surface on the at least one cam and a joining surface on the shaft wherein the joining surface on the at least one cam and the joining surface on the shaft each has at least partially a predefined roughening/roughness, at least a portion of which has a defined pattern in the form of a 3-dimensional code that has information about the respective one of the shaft and the at least one cam, and that is configured to increase torque transmission capability between the shaft and the at least one cam; wherein the joining surface on the at least one cam includes at least one surface structure with a predominant direction, and the predefined roughening/roughness of the joining surface on the at least one cam includes at least one non-directional surface structure, wherein the at least one non-directional surface structure is superimposed on the at least one surface structure with a predominant direction, wherein the shaft is a drawn and not further processed pipe having an external diameter with a tolerance of a maximum of +/−0.07 mm, and wherein a surface and a depth of the 3-dimensional code are each used as an information plane. 2. The camshaft according to claim 1 , wherein the predefined roughening/roughness has at least another portion that has a defined pattern in the form of at least one of lettering, a sequence of numbers, a bar code, and a 2-dimensional surface code. 3. The camshaft according to claim 1 , wherein the predefined roughening/roughness of the joining surface on the at least one cam and the joining surface on the shaft have a roughness value Rz>6.3 μm. 4. A cam thermally joinable with a shaft for a camshaft, the cam comprising a joining surface on an interior surface of the cam, the joining surface having at least one surface structure with a predominant direction and a predefined roughening/roughness that includes at least one non-directional surface structure, wherein the at least one non-directional surface structure is superimposed on the at least one surface structure with a predominant direction, and wherein at least a portion of the predefined roughening/roughness includes a defined pattern in the form of a 3-dimensional code that has information about the cam and that is configured to increase torque transmission capability between the cam and the shaft, wherein a surface and a depth of the 3-dimensional code each being used as an information plane. 5. The cam according to claim 4 , wherein the at least one surface structure with a predominant direction includes a twist. 6. The camshaft according to claim 1 , wherein the at least one surface structure with the predominant direction includes a twist. 7. A camshaft for a combustion engine comprising: a shaft; and at least one cam joined thermally to the shaft by way of a joining surface on the at least one cam to a joining surface on the shaft, the joining surface on the at least one cam having at least one surface structure with a twist; wherein at least the joining surface on the at least one cam has a predefined roughening/roughness that includes at least one non-directional surface structure superimposed on the twist, and a defined pattern in the form of a 3-dimensional code that has information about the at least one cam and that is configured to increase torque transmission capability between the at least one cam and the shaft, a surface and a depth of the 3-dimensional code each being used as an information plane; and wherein the shaft is a drawn and not further processed pipe having an external diameter with a tolerance of a maximum of +/−0.07 mm. 8. The camshaft according to claim 7 , wherein the predefined roughening/roughness of the joining surface on the at least one cam and the joining surface on the shaft have a roughness value Rz>6.3 μm.