Process for carbonitriding metallic components

The invention claimed is: 1. A process for carbonitriding a metallic component, comprising: heating the metallic component to a treatment temperature; conducting a plurality of nitriding phases, including a first nitriding phase and a second nitriding phase, each nitriding phase comprising nitriding the metallic component with an ammonia gas superficially at a surface region of the metallic component; conducting a plurality of carburization phases, including a first carburization phase and a second carburization phase, each carburization phase comprising carburizing the metallic component with an acetylene gas; wherein each nitriding phase and each carburization phase is performed at the same treatment temperature; wherein the metallic component is nitrided in a surface region at which the surface of the component is not even, and/or in that the metallic component is nitrided in a surface region at a thread, an intersection, or an edge and/or in that the metallic component is a transmission component, and/or in that the metallic component has a toothing geometry, at which the surface of the component is nitrided; wherein at least one nitriding phase is conducted before each individual carburization phase in the plurality of carburization phases, and wherein the first nitriding phase is conducted before the first carburization phase, which is conducted before the second nitriding phase, which is conducted before the second carburization phase. 2. The process as claimed in claim 1 , characterized in that the treatment temperature lies in a range of approximately 780° C. to approximately 1050° C. 3. The process as claimed in claim 1 , characterized in that the carbonitriding is low-pressure carbonitriding performed at a pressure of less than about 50 mbar. 4. The process as claimed in claim 1 , characterized in that provision is made of at least one process gas change between a nitriding phase and a subsequent carburization phase in which the ammonia gas used in the nitriding phase is removed by evacuation or displaced using an inert gas and/or in that provision is made of at least one process gas change between a carburization phase and a subsequent nitriding phase in which the acetylene gas used in the carburization phase is removed by evacuation or displaced using an inert gas. 5. The process as claimed in claim 1 , characterized in that provision is made of at least one diffusion phase, in which evacuation is effected and/or in which the metallic component is surrounded at least substantially with an inert gas, and in that the diffusion phase follows a nitriding phase or a carburization phase.