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SuperF-UT milling cutters with unequal pitch / unequal helix meet the highest demands in milling operations, especially in High Performance Cutting. These HPC-strategies are some of the most effective application methods for today‘s solid carbide end mills. By utilizing chip thinning strategies, significant increases in productivity and tool life can be achieved. These strategies are particularly effective for increasing process reliability in materials with greater tensile strength, difficult to machine materials, as well as in long length to diameter ratios.
Features:
- center cutting on all types
- different tool lengths with reduced neck design
- various unequal pitch/unequal helix geometries
- 3/4/5/6 or more fluted end mills for different applications
- micro corner protection by corner chamfer or corner radius
- a new generation of nano-composite hard coatings (TiAlZrN, TiAlSiN, …)
- specially developed designs like chip-breaker, re-inforced core, IC-ducts or roughing profile are also available as standard
Your Advantages:
- perfectly suitable for HPC-applications
- extremely high material removal rates
- up to 60% higher feed rates compared to corresponding end mills
- reduced cutting edge wear and therefore impressive tool life
- improved surface finish quality
- optimized chip flow
- vibration free running
- exceptional accuracy
- greater cutting depths
- special end mill types for every material group
- wider application range for finish, rough and slot milling
- end mills suitable for unstable conditions and weaker machines are also available
