Cutting element, tool, and method for producing a helically extending, trapezoidally undercut groove in a cylindrical surface of a bore

The invention claimed is: 1. Cutting element for a tool to create a helically extending, trapezoidally undercut groove in a cylindrical surface of a bore, the cutting element comprising: a series of groove-cutting teeth to create a symmetrically cross-sectioned groove, each groove-cutting tooth spaced from a next-in-series or a prior-in-series groove-cutting teeth in the series by a whole-numbered multiple of a pitch, the series of groove-cutting teeth comprising at least one pre-machining tooth to create and machine a base groove and several trapezoidal teeth following the at least one pre-machining tooth, each trapezoidal tooth is trapezoidal in shape and has a tooth head profile with a cross-section that is larger at a head of the tooth than at a base of the tooth, with two flanks delimiting a flank angle for further machining the base groove to a trapezoidally undercut final cross-section, wherein each of the groove-cutting teeth has a symmetrically cross-sectioned tooth head profile, and the flank angle delimited by the two flanks of the trapezoidally shaped tooth head profile increases from at least one trapezoidal tooth to a following trapezoidal tooth to a defined final dimension. 2. Cutting element according to claim 1 , wherein each of the groove-cutting teeth is spaced from a next-in-series or a prior-in-series groove-cutting teeth in the series by twice the pitch. 3. Cutting element according to claim 1 , wherein the several trapezoidal teeth comprise at least a first trapezoidal tooth and a second trapezoidal tooth, the first trapezoidal tooth having a first flank angle, the second trapezoidal tooth having a second flank angle, and the second flank angle is greater than the first flank angle. 4. Cutting element according to claim 1 , wherein the groove-cutting teeth exhibit rounded corners. 5. Cutting element according to claim 1 , wherein: a reference plane extends through the base of each groove-cutting tooth, each of the trapezoidal teeth has a respective dimension from the reference plane to the head of the tooth, and each of the respective dimensions is the same. 6. Cutting element according to claim 1 , wherein the at least one pre-machining tooth comprises at least one circular tooth which has a tooth head profile that is circular in cross-section. 7. Cutting element according to claim 1 , wherein at least one pre-machining tooth comprises at least one rectangular tooth which has a tooth head profile cross-section that is rectangular with rounded corners. 8. Cutting element according to claim 1 , wherein the cutting element is configured as a cutting insert made of carbide. 9. Cutting element according to claim 1 , wherein the cutting element further comprises a drill-out tooth which precedes the groove-cutting teeth for drilling out the bore to a specified nominal diameter. 10. Tool with rotational drive capacity with an interface on the machine tool side and a base unit attached to the interface, characterized by a cutting element according to claim 1 attached to the base unit. 11. Method for creating a helically extending, trapezoidally undercut groove in a cylindrical surface of a bore, the method comprising: cutting a base groove, delimited in width by two flanks, into the cylindrical surface of a bore drilled out to a specified nominal diameter, and subsequently trapezoidally undercutting in cross-section the base groove by means of simultaneously machining of the two flanks, wherein the flank angle delimited by the two flanks of the base groove is successively expanded in at least two stages to a defined final angle of the groove to be created.