fraisa.com 848 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 • Signifi cant 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 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 fi nely 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 fi tted with smooth gradients and radii • Improved tool rigidity and therefore less radial defl ection • Minimal step formation with several infeed depths • Higher mechanical load and therefore improved performance Milling tool with increased core diameter • Improved tool rigidity and less tool defl ection • Higher performance in the area of the infeeds ap, ae and of the feed rate fz • Better component accuracy through less tool defl ection High-gloss technology • High gloss-ground tool faces and/or fl anks and fl utes • Reduced adhesion tendency • Improved surface fi nishes on the component • Increased tool life and 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 defl ection, greater precision • Higher mechanical resilience can be translated into increased performance
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