Method for producing a green compact using a pressing tool, a pressing tool, a green compact, and a sintered part

1 - 14 . (canceled) 15 . A method for producing a green compact, the method comprising the following steps: providing a pressing tool including at least one die extending along an axial direction between a first end face and a second end face of the at least one die and forming an inner peripheral surface of the at least one die with an opening between the end faces, the inner peripheral surface forming a receptacle for the green compact, at least one first punch being movable along the axial direction from one of the end faces of the die into the receptacle, and at least one second punch being movable along a radial direction through a channel in the die toward the receptacle, the inner peripheral surface having a region disposed along the axial direction between the one end face, from which the first punch is movable, and the opening; a) placing the second punch outwardly offset in the radial direction relative to the inner peripheral surface before or during step b); b) filling a powdery material into the receptacle; and c) moving at least the first punch and the second punch and compressing the material in the receptacle, the second punch being moved in the radial direction toward the receptacle only far enough to be disposed flush with or to protrude into the receptacle by no more than 0.1 mm at least relative to the region of the inner peripheral surface in the radial direction. 16 . The method according to claim 15 , which further comprises placing the second punch offset in step a) or during step b) so far in the radial direction relative to the inner peripheral surface that the material filled in step b) is also disposed in the channel. 17 . The method according to claim 16 , which further comprises displacing the material disposed in the channel through the opening into the receptacle as a result of the movement of the second punch in step c). 18 . The method according to claim 15 , which further comprises providing the second punch with at least one first punch part and at least one second punch part being movable independently of one another. 19 . The method according to claim 18 , which further comprises placing the punch parts next to one another along the axial direction. 20 . The method according to claim 15 , which further comprises using the second punch to compact a subregion of a wall region of the green compact extending along the axial direction from a first end to a second end of the wall region in step c), the subregion being spaced apart at least from the first end or from the second end. 21 . The method according to claim 15 , which further comprises placing the second punch on a portion of the green compact that tapers along the axial direction, and providing a ratio of at least 2:1 between a largest cross section and a smallest cross section of the portion transverse to the axial direction. 22 . A pressing tool for producing at least one green compact, the pressing tool comprising: at least one die extending along an axial direction between a first end face and a second end face of said at least one die and forming an inner peripheral surface of said at least one die having an opening between said end faces, said inner peripheral surface forming a receptacle for the green compact; at least one first punch being movable from one of said end faces of said at least one die into said receptacle along the axial direction; said inner peripheral surface having a region disposed between said one end face from which said first punch is movable into said receptacle and said opening; and at least one second punch being movable along a radial direction through a channel in said at least one die toward said receptacle, said second punch being movable along the radial direction only far enough toward said receptacle to be disposed flush with or to protrude into said receptacle by no more than 0.1 mm at least relative to said region of said inner peripheral surface in the radial direction. 23 . A green compact produced by compression of a powdery material, the green compact comprising: a first end and a second end defining an axial direction therebetween; a longitudinal axis extending along said axial direction; a wall region extending parallel to said longitudinal axis and along said axial direction from said first end to said second end; said wall region including a subregion spaced apart from said first end and said second end; said wall region having a compressed first surface texture outside said subregion; and said subregion having a second surface texture being different from said first surface texture. 24 . The green compact according to claim 23 , which further comprises first and second parting lines disposed between said subregion and said wall region, said subregion extending along said axial direction between said first and second parting lines, and said first and second parting lines forming a transition from said first surface texture to said second surface texture. 25 . The green compact according to claim 24 , wherein at least one of said parting lines has a curved shape. 26 . The green compact according to claim 23 , wherein said subregion has no undercuts to said wall region and ends flush with said wall region or is offset into the green compact by no more than 0.1 mm relative to said wall region in a radial direction. 27 . The green compact according to claim 23 , which further comprises a portion tapering along said axial direction, said portion having a largest cross section and a smallest cross section transverse to said axial direction, said portion having a ratio between said largest cross section and said smallest cross section of at least 2:1, and said subregion being disposed on said portion. 28 . A sintered part, comprising: a heat-treated green compact according to claim 23 ; said heat-treated green compact having a third surface texture disposed in a region of said first surface texture; and said heat-treated green compact having a fourth surface texture in a region of said second surface texture.