Principles of Turning with GROOVE-TURN Tools
The basic principle in turning with groove-turn tools is the deflection of the cutting tool, which results in a frontal clearance angle αº between the insert and the workpiece. The clearance angle αº is a function of the side cutting forces and is not constant, as is the case with ISO inserts.
The deflection is influenced by the following factors:
When all of the above factors remain constant during turning, a high degree of accuracy with a tolerance up to ±0.01 mm can be achieved.
If the conditions are too light (such as in a super-finish operation), there may not be enough deflection and the clearance angle will be very small. This may result in chatter and vibration.
The deflection is influenced by the following factors:
Feed f
Depth of Cut ap
Overhang of Insert Support T
Width of Insert Support A
Cutting Speed Vc
Workpiece Material
Depth of Cut ap
Overhang of Insert Support T
Width of Insert Support A
Cutting Speed Vc
Workpiece Material
When all of the above factors remain constant during turning, a high degree of accuracy with a tolerance up to ±0.01 mm can be achieved.
If the conditions are too light (such as in a super-finish operation), there may not be enough deflection and the clearance angle will be very small. This may result in chatter and vibration.