Shearing part

What is claimed is: 1. A shearing part for a plasticising screw, with at least one inlet channel, which has an open inlet channel start situated at the upstream end of the shearing part, and a closed inlet channel end situated at the downstream end of the shearing part, and with at least one outlet channel, which has an open outlet channel end situated at the downstream end of the shearing part, and a closed outlet channel start situated at the upstream end of the shearing part, wherein the at least one inlet channel and the at least one outlet channel run helically around the longitudinal axis of the shearing part or parallel to the longitudinal axis of the shearing part, wherein the inlet channel and the outlet channel are arranged lying directly adjacent to one another and contiguous to one another, wherein the inlet channel continues directly into the outlet channel and the inlet channel and the outlet channel are fluidically connected here directly with one another, in such a way that melt flowing into the inlet channel can flow over directly from the inlet channel into the outlet channel, wherein a flow direction is produced which lies substantially transversely to the longitudinal axis of the shearing part, that the inlet channel has a depth at which a shearing action on the melt flowing through the inlet channel is avoided, and that the outlet channel is configured as shearing surface, in such a way that a shearing action is present on the melt flowing through the outlet channel, wherein, at a transition between the inlet channel and the outlet channel, a rounding is provided comprising a rounded channel boundary that extends in a direction substantially transversely to the longitudinal axis of the shearing part. 2. The shearing part according to claim 1 , wherein the shearing surface, viewed in radial direction of the shearing part, has the same height over its entire extent, such that a shear gap with constant gap width is formed. 3. The shearing part according to claim 1 , wherein the height of the shearing surface, viewed in radial and/or axial direction of the shearing part, changes so that a shear gap with variable gap width is present. 4. The shearing part according to claim 1 , wherein two inlet channels and two outlet channels are provided, wherein respectively one inlet channel and one outlet channel are fluidically connected with one another and form a half of the shearing part, wherein the two halves are arranged helically around the longitudinal axis of the shearing part and are separated from one another fluidically by barrier webs. 5. The shearing part according to claim 1 , wherein a cross-section of the inlet channel is configured substantially in a semi-circular or semi-oval shaped manner. 6. The shearing part according to claim 1 , wherein the open inlet channel start is configured in a funnel-shaped manner. 7. The shearing part according to claim 1 , wherein a barrier web(s) is or respectively are configured in such a way that a portion is present lying parallel to the inlet channel, and that the barrier web (s) are configured at the upstream end and at the downstream end of the shearing part running in circumferential direction, wherein the barrier web(s) have end portions which lie orthogonally to the longitudinal axis of the shearing part. 8. A single-screw plasticising unit with a cylinder and with rotatably a linearly drivable screw received therein, wherein the screw has a shearing part according to claim 1 . 9. The plasticising unit according to claim 8 , wherein the shearing part forms the head of the screw, and its front end is configured conically. 10. The plasticising unit according to claim 8 , wherein the shearing part is arranged spaced apart from the front end of the screw.