Legend to the product page



              Tool technologies
              Front chamfer
              •  Tool is supported in radial and axial directions
              •  Reduced vibrations
              •  Better surface quality from both side and end faces

              Supporting chamfer
              •  Support for the tool in the radial and axial directions
              •  Reduced vibrations and higher performance
              •  Improved surface quality as a result of increased running smoothness

              Milling tool with special free space design
              •  Significant reinforcement of the cutting edge
              •  Higher performance, less vibrations and improved component quality
              •  Longer tool life and more process safety - therefore higher degree of automation

              High-gloss technology
              •  High gloss-ground tool faces and/or flanks and flutes
              •  Reduced adhesion tendency
              •  Improved surface finishes on the component
              •  Increased tool life and performance




              Parabolic support face
              •  Support for the tool in the radial and axial directions
              •  Reduced vibration and higher performance


              Finely balanced tools
              •  Finely balanced tools at least G2.5 at n=20,000 rpm or permissible residual imbalance <1gmm
              •  Reduction or elimination of the balancing process in the case of finely balanced clamping devices
              •  Improved surface quality as a result of increased running smoothness and fewer vibrations
              •  Increase in the service life of the machine spindle
              Smooth transitions
              •  The shaft-neck-cutting edge transitions are fitted with smooth gradients and radii
              •  Improved tool rigidity and therefore less radial deflection
              •  Minimal step formation with several infeed depths
              •  Higher mechanical load and therefore improved performance
              Optimized neck transitions <6 mm
              •  The transitions from the shank to the neck are short and their optimized shape
              •  Improved tool rigidity for diameters <6 mm
              •  Less deflection, greater precision
              •  Higher mechanical resilience can be translated into increased performance

              Milling tool with increased core diameter
              •  Improved tool rigidity and less tool deflection
              •  Higher performance in the area of the infeeds ap, ae and of the feed rate fz  i
              •  Better component accuracy through less tool deflection








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