The result: first-class components in high-feed mode.
If you want to increase productivity when milling, high-feed cutting is the perfect way to go. HFC tools have a setting angle of significantly less than 90°. The feed rate can be significantly increased in order to still achieve an appropriate chip thickness.
At the same time, the machine spindle is protected as the total contact area of the insert is greatly reduced. Due to the lower power consumption of the spindle, the process can also be used on machines with limited power without any problems.
High-feed milling offers extremely smooth running, as the cutting forces act in an axial direction. This significantly reduces vibration even with long overhang lengths and ensures a stable machining process.
ARNO offers you four milling systems with which you can switch to the particularly efficient high-feed mode. FD, FE and BXP work with indexable inserts, the AFH system with solid carbide tools.
FD | Shoulder and HFC milling system
FD | Shoulder and HFC milling system
With one indexable milling body for square shoulder and high feed milling all bases are covered with the added benefit of lower costs and reduced inventory.
FE | Shoulder and HFC milling system
FE | Shoulder and HFC milling system
The positive mounting position of the indexable inserts and the twisted helical shape of the cutting edges enable high feed rates, smooth running and excellent cutting ability.
BXP | HFC milling system
BXP | HFC milling system
The BXP system was specifically designed for high-feed milling and delivers outstanding results with small cutting diameters. The small IC 07 inserts impress with their low wear and high load capacity.
AFH | Solid carbide milling cutter HSC for hardened steels 45 - 70 HRC
AFH | Solid carbide milling cutter HSC for hardened steels 45 - 70 HRC
The high-feed version of the AFH program offers a higher cutting performance and is perfect for angled contours. The tools have a flat tool head and reduced clearance angles. In addition, vibrations are reliably reduced thanks to the stabilised corner radius.
COMPREHENSIVE ADVANTAGES
Very high productivity thanks to high feed rates and suitable infeed depths
Better price/performance ratio thanks to longer process-reliable operating times and increased removal volume
Very high process reliability due to uniform wear development