Trade Logo  EDP: 5515315  Part: SNMG120408ML TT8020  Series: SNMG ML Chipbreaker

Available : 0
International: 1012


Product Series Features:

  • Negative square inserts
  • For medium applications

Operating Guidelines
Untitled Document

Negative Chipbreaker Insert Cross-Sections


Negative Super Finishing Inserts
  • For super finish applications
  • Steel, stainless steel and heat resistant alloy machining
  • Excellent chip control
  • For finishing applications
  • Exotic materials
  • Excellent chip control at low feeds and depths of cut
  • Super finishing chip breaker for steel machining
  • Excellent chip control and chip evacuation
  • Minimal vibration due to less machining load
  • For super finish applications
  • Steel, cast iron and stainless steel machining
  • Excellent chip control and low cutting forces
  • For super finish applications
  • Steel, cast iron and stainless steel machining
  • Excellent surface roughness after machining
Negative Finishing Inserts
  • For finishing applications for steel machining
  • Wide supporting area
  • For finish and semi finish applications
  • Steel, stainless steel and cast iron machining
  • Low cutting forces
  • For finishing applications
  • Stainless steel and heat resistant alloy machining
  • Low cutting forces
  • For finishing applications on mild steels
  • Narrow chip breaker design for optimal chip control
  • Ideal for finishing applications
  • Low carbon steel & low carbon alloy steel
  • Effective chip breaking in both turning and facing operations
  • For steel machining
  • Improved chip breaking due to 3-dimension chipbreaker
  • Solution for a wide range from semi-finishing to semi-medium machining
hand-pointing-up
Negative Medium Inserts
  • For semi-finishing and medium applications on steels
  • Wave cutting edge
  • For medium applications
  • Steel and cast iron machining
  • Strong rake geometry
  • Excellent chip control on medium turning applications
  • For steel machining
  • Strong, serrated cutting edge for excellent chip evacuation
  • Semi-finishing and medium machining
  • Excellent chip breaking for automotive components
  • For slender workpiece applications
  • Vibration free
  • Steel and stainless steel machining
  • High positive rake geometry to minimize cutting forces
  • Low cutting resistance and heat generation high-temperature alloy machining
  • High rake angle for smooth chip formation
  • For medium light applications
  • Stainless steel, steel and aluminum
  • Very high positive rake geometry to minimize built-up-edge and cutting forces
  • For exotic materials
  • Stainless steels, super alloys, low carbon steels, low carbon alloy steel machining
  • Sharp geometry to minimize built-up edge
  • For medium applications less than 5mm depth of cut
  • Steel and stainless steel machining
  • Positive rake geometry to decrease cutting forces
  • Suitable for turning slender bar, thin-wall components
  • For medium light to medium applications
  • Steel and stainless steel machining
  • Positive rake geometry to minimize cutting forces
  • Excellent chip control
  • For medium machining applications
  • Steel and stainless steel
  • High positive rake geometry to optimize machining and provide stable machining conditions
hand-pointing-up
  • For medium applications
  • Stainless steel machining
  • Sharp land design for low cutting force
  • For medium applications
  • Stainless steel and heat resistant material machining
  • Sharp cutting edge to reduce built-up-edge
  • For general machining on stainless steel and steel
  • Positive rake angle provides excellent chip evacuation
  • Wide range for medium application on steels
  • Wide groove and several dimples
  • For medium to semi-finishing applications
  • Steel & Automotive component
  • Positive geometry
  • Excellent chip control on medium applications
  • For medium rough applications
  • Steel, cast iron and stainless steel
  • Tough rake angle for general use
  • For medium applications
  • For general turning of steels and cast irons
  • Strong rake geometry
  • For medium rough applications
  • Steel and cast iron machining
  • Strong rake geometry
  • Suitable for manual lathes
  • For medium to rough machining applications
  • Steel, cast iron and stainless steel machining
  • Stable cutting and low cutting forces at high feed rates
hand-pointing-up
Negative Roughing Inserts
  • For medium to medium rough applications
  • Steel and stainless steel
  • Strong rake geomerty
  • Wide chip control range
  • For roughing applications on exotic materials
  • Low cutting force
  • Wide chip control range when roughing
  • For roughing applications on steels
  • Reliable cutting edge with low cutting force
  • For roughing applications
  • Steel and cast iron machining
  • Very strong rake geometry
  • For roughing applications on cast iron
  • Stable broad supporting area
  • Reliable, uniform performance
  • For semi heavy roughing applications
  • Steel, stainless steel and cast iron machining
  • Strong cutting edge with flat land
  • Low cutting force
  • For roughing applications
  • Steel, stainless steel and cast iron machining
  • Very strong rake geometry
  • Heavy turning for stainless and mild steel
  • Low cutting force in stainless steel machining
  • Reliable & uniform performance
  • Excellent chip control due to the specially designed chip breaker geometry
  • For heavy roughing applications
  • Low cutting force for low horse power machines
  • Excellent chip control due to changeable land and a flexible chip breaker
  • For heavy roughing applications
  • For all kinds of shafts, connecting-rods and ship building components
  • Flexible chip breaker offers excellent chip evacuation
  • For heavy roughing applications
  • For large depth of cut and high feed
  • Strong cutting edge credit to a wide land and large land angle
  • For heavy roughing applications
  • For large depth of cut and high feed
  • Extremely strong cutting edge credit to a wide land and large land angle
  • Suitable for high cutting conditions
hand-pointing-up