Tilting segment for a shaft bearing device, and shaft bearing device

The invention claimed is: 1. A tilting segment for a shaft bearing device, comprising: a base body having a slide bearing face bounded by: a segment leading edge extending in an axial direction; a segment trailing edge extending in the axial direction; and lateral edges extending in a circumferential direction between the segment leading edge and the segment trailing edge; and a groove, defined by the slide bearing face, that extends in the axial direction having axial ends and an uninterrupted floor between the axial ends and is located nearer to the segment trailing edge than the segment leading edge, each axial end of the groove arranged inboard of the lateral edges, a first groove wall that extends in the axial direction and faces the segment trailing edge, and a second groove wall that extends in the axial direction and is remote of the segment trailing edge, each of the axial ends, the first groove wall, and the second groove wall formed by a respective uninterrupted wall extending from the slide bearing face to the uninterrupted floor. 2. The tilting segment according to claim 1 , wherein, in a direction of a circumferential extension U 1 of the slide bearing face starting with 0% at the segment leading edge and ending with 100% at the segment trailing edge, a longitudinal central axis of the groove extending in the axial direction is positioned in a portion of the slide bearing face located at between 60% and 90% of the circumferential extension U 1 of the slide bearing face. 3. The tilting segment according to claim 2 , wherein, the longitudinal central axis of the groove is located at between 60% and 80% of the circumferential extension U 1 of the slide bearing face. 4. The tilting segment according to claim 3 , wherein, the longitudinal central axis of the groove is located at between 70% and 80%, of the circumferential extension U 1 of the slide bearing face. 5. The tilting segment according to claim 2 , wherein a ratio VU=U 2 /U 1 between a circumferentially extending groove width U 2 of the groove extending in the axial direction and the circumferential extension U 1 of the slide bearing face extending between the segment leading edge and the segment trailing edge is 0.02≤VU≤0.20. 6. The tilting segment according to claim 5 , wherein the ratio VU=U 2 /U 1 is 0.05≤VU≤0.20. 7. The tilting segment according to claim 6 , wherein the ratio VU=U 2 /U 1 is 0.05≤VU≤0.10. 8. The tilting segment according to claim 5 , wherein a ratio VL=L 2 /L 1 between an axially extending groove length L 2 of the groove extending in the axial direction and an axial extension L 1 of the slide bearing face extending between the lateral edges is 0.5≤VL<1.0. 9. The tilting segment according to claim 8 , wherein the ratio VL=L 2 /L 1 is 0.6≤VL<1.0. 10. The tilting segment according to claim 9 , wherein the ratio VL=L 2 /L 1 is 0.7≤VL<1.0. 11. The tilting segment according to claim 1 , wherein the axially extending groove has a constant groove depth between the first groove wall and the second groove wall. 12. The tilting segment according to claim 1 , wherein a groove depth of the axially extending groove increases proceeding from the second groove wall in direction of the first groove wall. 13. A shaft bearing device for slide bearing support of a rotating shaft, comprising: a bearing base body in which a plurality of tilting segments are received one behind the other in a circumferential direction, wherein, in operation, first tilting segments are more highly loaded by forces than second tilting segments, wherein at least one of the plurality of tilting segments is configured as a second tilting segment and comprises: a base body having a slide bearing face bounded by: a segment leading edge extending in an axial direction; a segment trailing edge extending in the axial direction, and lateral edges extending in the circumferential direction between the segment leading edge and the segment trailing edge; a groove, defined by the slide bearing face, that extends in the axial direction having axial ends and an uninterrupted floor between the axial ends and is located nearer to the segment trailing edge than the segment leading edge, each axial end of the groove arranged inboard of the lateral edges, the axial ends formed by an uninterrupted wall extending from the slide bearing face to the uninterrupted floor. 14. The shaft bearing device according to claim 13 , wherein all of the tilting segments comprise: the base body having the slide bearing face bounded by: the segment leading edge extending in the axial direction; the segment trailing edge extending in the axial direction, and the lateral edges extending in the circumferential direction between the segment leading edge and the segment trailing edge; and the groove defined by the slide bearing face that extends in the axial direction having the axial ends and is located nearer to the segment trailing edge than the segment leading edge, each axial end of the groove arranged inboard of the lateral edges.