Method for Producing a Sintered Part Having a Highly Precise Molded Part Height and Parts Set of Sintered Joining Parts

1 . A method for producing a sintered part having a precise-height molded part height, wherein the sintered part is produced from at least one first sintered joining part having at least one first joining face and a second sintered joining part having at least one second joining face, wherein the method comprises at least the following steps of: joining the first sintered joining part to the second sintered joining part, wherein the first joining face is oriented toward the second joining face; pressing the first sintered joining part and the second sintered joining part together under an axial pressing force effected by a press tool, wherein the precise-height molded part height is brought about by the pressing-together operation; removing the sintered part from the press tool as a sintered part with a precise-height molded part height. 2 . The method as claimed in claim 1 , wherein at least one of the first sintered joining part has at least one first deformation element arranged on the first joining face and the second sintered joining part has at least one second deformation element arranged on the second joining face, and wherein deformation of at least one of the deformation elements is brought about by the pressing-together operation. 3 . The method as claimed in claim 2 , wherein the first deformation element arranged on the first joining face is introduced into a first receiving hollow arranged on the second joining face and/or at least the second deformation element arranged on the second joining face is introduced into a second receiving hollow arranged on the first joining face in order to position the deformation elements in a direction oriented perpendicularly to the axial direction, wherein at least one of the receiving hollows, at least regionally has/have a smaller depth than the respectively corresponding deformation element height. 4 . The method as claimed in claim 2 , wherein at least one of the first deformation element and the second deformation element at least sectionally borders a cavity formed by the first sintered joining part and the second sintered joining part during the pressing of the first sintered joining part against the second sintered joining part, at least one deformation element is compressed by the deformation of the at least one of the first deformation element and of the second deformation element, and the cavity is sealed off with respect to a fluid located in the cavity by the deformation of the deformation elements. 5 . The method as claimed in claim 1 , wherein for the joining operation, at least one of a first joining element arranged on the first joining face is introduced into a first joining cutout formed in the second joining face and a second joining element arranged on the second joining face is introduced into a second joining cutout formed in the first joining face. 6 . The method as claimed in claim 5 , wherein at least one of the first deformation element is arranged on the first joining element or the first joining element acts as the first deformation element and the second deformation element is arranged on the second joining element or the second joining element acts as the second deformation element, a region of the joining elements that is farthest away from the joining face is compressed in an end stage of the introduction of the joining elements. 7 . The method as claimed in claim 5 , wherein at least the first joining element is configured in a narrowing manner with increasing distance from the first joining face, and at least the first joining cutout is configured in a narrowing manner with increasing depth into the second sintered joining part, and the compressive deformation of the first joining element is brought about by the pressing-together operation. 8 . The method as claimed in claim 1 , wherein at least one insert part is inserted in at least one of a first cutout in the first sintered joining part and in a second cutout in the second sintered joining part, wherein the insert part is compressed in an axial direction during the pressing-together operation and as a result contributes to bringing about the precise-height molded part height. 9 . The method as claimed in claim 1 , wherein the production of the sintered part comprises bringing about high radial precision, wherein the bringing about of the high radial precision involves deformation of at least one radial deformation element. 10 . A parts set of sintered joining parts for joining to form a sintered part having a precise-height molded part height, wherein the parts set has at least one first sintered joining part with at least one first joining face and a second sintered joining part with at least one second joining face. 11 . The parts set as claimed in claim 10 , wherein at least one of the first sintered joining part has at least one first deformation element arranged on the first joining face and the second sintered joining part has at least one second deformation element arranged on the second joining face. 12 . The parts set as claimed in claim 11 , wherein at least one of the second sintered joining part has a first receiving hollow, arranged in the second joining face, for the first deformation element and the first sintered joining part has a second receiving hollow, arranged in the first joining face, for the second deformation element, wherein at least one receiving hollow at least regionally has a smaller depth than the respectively corresponding deformation element height. 13 . The parts set as claimed in 11 , wherein at least one of the sintered joining parts has a cavity for passing through a fluid, and in that at least one of the deformation elements at least sectionally borders the cavity in order to seal off a fluid located in the cavity after the joining of the sintered part and the compressive deformation that occurs of the deformation element at least sectionally borders the cavity. 14 . The parts set as claimed in claim 10 , wherein at least one of the first sintered joining part has at least one first joining element arranged on the first joining face and the second sintered joining part has a first joining cutout formed in the second joining face and the second sintered joining part has at least one second joining element arranged on the second joining face and the first sintered joining part has a second joining cutout formed in the first joining face. 15 . The parts set as claimed in claim 14 , wherein the first deformation element is arranged on the first joining element and/or the second deformation element is arranged on the second joining element, or the first joining element is configured as the first deformation element and/or the second joining element is configured as the second deformation element. 16 . The parts set as claimed in claim 10 , wherein at least one of the deformation elements is configured as an elevation with one of the geometrical shapes of spherical segment, truncated spherical segment, truncated cone, cuboid, truncated trapezium or truncated pyramid. 17 . The parts set as claimed in claim 11 , wherein at least one of the deformation elements has a minimum extent of an upper contact face of 0.2 mm in at least one dimension of the contact face, has an extension of a base of 0.4 mm to 2.0 mm in at least one dimension of the base and/or has a height of 0.1 mm to 2.0 mm between the base and the contact face. 18 . The parts set as claimed in claim 10 , wherein the parts set has at least one insert part for inserting i