• High cutting speeds and extremely high removal rates (Q) thanks to continuously high and massive cooling of cutting edges
• 2 times higher efficiency than with other commercially available tools

*: The comparison takes into consideration the milling tools and milling methods available on the market as well as the machining parameters recommended by manufacturers.

• Through-tool cooling prevents overheating of cutting edges and guarantees best chip evacuation
• High-performance coating eXedur SNP:
  • High-temperature and oxidation-resistant
  • High degree of wear resistance
  • Low adhesion to metals prevents bonding
  • No deposition of chips due to low friction coefficient 
• The tool life of CrazyMill Cool Micro is up to two times longer compared to other commercially available milling tools

*: The comparison takes into consideration the milling tools and milling methods available on the market as well as the machining parameters recommended by manufacturers.

• Newly developed geometry combines cutting performance with robustness. That results in a significantly higher material removal rate whilst maintaining a consistent shape
• Two material-specific cutting-edge geometries for the machining of difficult and very difficult-to-machine materials:
  Geometry S: stainless steels, titanium alloys, structural steels, cast iron, non-ferrous metals
  Geometry SX: heat-resistant alloys (Inconel, Monel, Nilo, Hastelloy), CoCr alloys
• Ultra-fine carbide grade with high wear resistance coupled with fracture toughness with grain sizes below 0.5 µm
• No overheating of the high-performance coating and cutting edges thanks to efficient and massive cooling

*: The comparison takes into consideration the milling tools and milling methods available on the market as well as the machining parameters recommended by manufacturers.

• Thanks to material-specific geometries nearly burr free workpiece
• High profile precision
• Tool deflection and breakage minimised
• Excellent surface quality: chip-free milling zone thanks to efficient cooling jet

• Shorter machining time: up to 3 times faster
• Excellent tool life: up to 2 times longer
• One micro-endmill for roughing and finishing

*: The comparison takes into consideration the milling tools and milling methods available on the market as well as the machining parameters recommended by manufacturers.

• Square micro-endmill with three or four flutes and through-shaft cooling
• Diameter range:
  • Z3: 0.2 mm – 1.0 mm (.008” – .039”)
  • Z4: 0.4 mm – 1.0 mm (1/64” – .039”)
• Two versions:
  • Type B (max. milling depth 3 x d) with cutting length 1.5 x d
  • Type C (max. milling depth 5 x d) with cutting length 1.5 x d
• Two material-specific cutting-edge geometries for the machining of difficult and very difficult-to-machine materials:
  geometry S: stainless steels, titanium alloys, structural steels, cast iron, non-ferrous metals;
  geometry SX: heat-resistant alloys (Inconel, Monel, Nilo, Hastelloy), CoCr alloys
• Tungsten carbide milling cutter with 3 mm (.118“) – 4 mm (.157“) -shaft

• Specific geometries with perfect cutting ability and stability
• Material-specific cutting-edge geometries for difficult materials: geometry S for stainless steels, titanium alloys, structural steels, cast iron, non-ferrous metals and geometry SX for heat-resistant alloys (Inconel, Monel, Nilo, Hastelloy), CoCr alloys
• Integrated cooling channels: regular and continuous cooling and targeted chip evacuation
• „HSPC“ (HighSpeedPerformanceCutting), especially suitable for difficult-to-machine materials (such as stainless steel, titanium alloys, CrCo and superalloys)
• Especially developed ultra-fine carbide with high wear resistance coupled with fracture toughness and grain sizes below 0.5 µm
• Nearly burr free workpieces
• Adapted for side and slot milling and milling with helical interpolation
• Roughing and finishing
• Wear and heat-resistant high-performance coating eXedur SNP
• Mikron Tool produces all tools with highest repeat precision. Hence the user will benefit from long term stable production conditions (stable process and machining precision)