Pump housing of two different sinterable materials

The invention claimed is: 1. A pump device comprising: a pump housing at least partly surrounding an interior region and having an inlet and an outlet; and an impeller located within the interior region of the pump housing; wherein the pump housing comprises at least one first subregion and at least two further subregions, a material of the first subregion being different than a material of the further subregions; wherein the first subregion comprises a ceramic to an extent of at least 61% by weight, based on the total mass of the first subregion; wherein the further subregions comprises a metal content within a range from 40 to 90% by weight, based on the total mass of the further subregions; wherein at least one part of the first subregion and at least one part of the further subregions are connected to one another; and wherein the at least one first subregion and the at least two further subregions alternate on an exterior circumference of the pump housing. 2. The pump device of claim 1 , wherein the pump housing comprises a pipe. 3. The pump device of claim 1 , wherein the at least two further subregions are positioned at the inlet or the outlet, or at both the inlet and the outlet. 4. The pump device of claim 1 , wherein the ceramic of the at least one first subregion is selected from the group consisting of aluminum oxide (Al 2 O 3 ), zirconium dioxide (ZrO 2 ), a zirconium oxide containing an aluminum oxide (ATZ), an aluminum oxide containing a zirconium oxide (ZTA), a zirconium oxide containing an yttrium (Y-TZP), aluminum nitride (AlN), titanium nitride (TiN), magnesium oxide (MgO), a piezoceramic, barium oxide and sodium potassium niobate or a mixture of at least two thereof. 5. The pump device of claim 1 , wherein the metal of the at least one two further subregions is selected from the group consisting of platinum (Pt), iron (Fe), stainless steel, iridium (Ir), niobium (Nb), molybdenum (Mo), tungsten (W), titanium (Ti), cobalt (Co), chromium (Cr), a cobalt-chromium alloy, tantalum (Ta) and zirconium (Zr) or a mixture of at least two thereof. 6. The pump device of claim 1 , wherein the at least one first subregion comprises less than 10% by weight of metal based on the total mass of the first subregion. 7. The pump device of claim 1 , wherein the at least one first subregion and the at least two further subregions are connected to one another by at least one third subregion. 8. The pump device of claim 7 , wherein the at least one third subregion has a metal content between the metal content of the first subregion and the metal content of the further subregions. 9. The pump device of claim 1 , wherein the pump device is at least partly surrounded by a component housing, with at least one part of the at least two further subregions of the pump device being connected to the component housing. 10. The pump device of claim 9 , wherein the component housing comprises at least 30% by weight of titanium based on the total mass of the component housing. 11. The pump device of claim 1 , wherein the wall of the pump housing has a magnetic permeability of less than 2μ. 12. The pump device of claim 1 , wherein the surface of the at least one first subregion that faces the interior region of the pump housing has a Vickers hardness of at least 330 HV. 13. The pump device of claim 1 , wherein at least the outer surfaces of the component housing and the surface facing the interior region of the pump housing are biocompatible. 14. A method for producing a pump housing for a pump device, the method comprising: providing a first material; providing a further material that is different than the first material; forming a pump housing precursor, wherein a first subregion of the pump housing is formed from the first material and wherein two further subregions of the pump housing are formed from the further material and wherein the first subregion and the two further subregions alternate on an exterior circumference of the pump housing; and treating the pump housing precursor at a temperature of at least 300° C. 15. A method for producing a pump housing for a pump device, comprising the steps: providing a first material; providing a further material that is different than the first material; forming a pump housing precursor, wherein firstly at least two further subregions of the pump housing are formed from the further material and then a first subregion of the pump housing is formed from the first material and wherein a second further subregion of the pump housing is formed from the further material, and wherein the first subregion and the two further subregions alternate on an exterior circumference of the pump housing; and treating the pump housing precursor at a temperature of at least 300° C. 16. The method of claim 15 , wherein the forming of a pump housing precursor comprises a shaping process, selected from the group consisting of a lithographic process, an injection molding process, a machining process, an extrusion process or a combination of at least two thereof. 17. A pump housing for a pump device obtainable by a method as claimed claim 15 . 18. A housing at least partly surrounding an interior region and comprising a first end and a second end; wherein the housing has at least one first subregion and at least two further subregions, a material of the first subregion being different than a material of the two further subregions; wherein the first subregion comprises a ceramic to an extent of at least 61% by weight, based on the total mass of the first subregion; wherein the two further subregions comprises a metal content within a range from 40 to 90% by weight, based on the total mass of the two further subregions; wherein at least one part of the first subregion and at least one part of the two further subregions are connected to one another; and wherein the at least one further subregion is positioned at the first end or the second end of the interior region and wherein the at least one first subregion and the at least two further subregions alternate on an exterior circumference of the pump housing. 19. The housing of claim 18 , wherein a slidable element is located in the housing, at least in one part of the housing.