CNC Tool & Cutting Guide
DATRON not only manufactures high-speed milling machines, but also universally usable high-speed milling tools which also achieve excellent machining results with machines from other vendors.
In order to provide you with comprehensive information on the use of our high-speed milling tools, we have created for you, as a DATRON user, this cutting data manual. It is designed to provide you with valuable technical data, tips and solutions for the immediate use of our DATRON high-speed milling machines and tools.
In addition, we will show you in 6 simple steps at the beginning of this document, how to use our technologies reliably and achieve optimal machining results with them.
All data presented in this cutting data manual were determined on our DATRON high-speed milling machines in high-performance tests. The actual optimum cutting data vary depending on the clamping device, specific machine and material quality.
Advantages of Single Flute End Mills
Chip Channel/Chip Removal
Counter-Balanced Tip/Vibration
HSC Milling
Selection of the infeed types
Application
Roughing of pockets and grooves (single)
Full Cut
Full-cut parameters are used in conventional milling. During a full cut, the machine mills in a straight or parallel-plane forward motion.
An example of a typical full-cut application is full-groove milling. During this machining process, the wrap angle of the chip-removing tool is at 180 degrees with a constant chip thickness, so that an optimal chip removal rate is achieved.
Application
Roughing of pockets and grooves (single)
Partial Cut
Full-cut parameters are used in conventional milling. During a full cut, the machine mills in a straight or parallel-plane forward motion.
An example of a typical full-cut application is full-groove milling. During this machining process, the wrap angle of the chip-removing tool is at 180 degrees with a constant chip thickness, so that an optimal chip removal rate is achieved.
