Milling Inserts Wear Problems and Solutions

MILLING - INDEXABLE INSERTS

MILLING -
SOLID CARBIDE AND
MULTI-MASTER

Type of Wear

- ×
  
  Flank Wear
  Flank Wear
  
  Cause
  - High cutting speed
  - Low wear resistance carbide grade
  Remedy
  - Reduce cutting speed
  - Use a more wear- resistant cutting tool material grade
  - Select a more wear resistant grade
  - For work-hardening materials, select a smaller entry angle
  - Reduce the cutting speed when machining heat resistant materials
- ×
  
  Crater Wear
  Crater Wear
  
  Cause
  - Excessive cutting temperatures and pressures on the top of the insert
  Remedy
  - Reduce cutting speed
  - Reduce feed
  - Use a tool with more positive geometry
  - Use a harder material grade
  - Select a more wear resistant grade
  - Select a more positive insert geometry
  - Reduce the cutting speed or reduce the feed rate to lower the temperature
  - Use higher coolant flow and pressure, consider High pressure coolant
- ×
  
  Plastic Deformation
  Plastic Deformation
  
  Cause
  - Cutting temperature is too high
  Remedy
  - Reduce cutting speed
  - Use a harder material grade
  - Significantly increase coolant supply
- ×
  
  Notch Wear
  Notch Wear
  
  Cause
  - Cutting speed is too high, or insufficient insert wear resistance of the carbide grade
  Remedy
  - Use more wear resistant tool material grade
  - Reduce cutting speed
  - Vary cutting depth
  - Use insert with a reinforced cutting edge geometry
  - For work-hardening materials, select a smaller entry angle
  - Reduce the cutting speed when machining heat resistant materials
- ×
  
  Thermal Cracking
  Thermal Cracking
  
  Cause
  - Excessive variations in surface temperature, intermittent machining, or variations in coolant supply
  Remedy
  - Reduce cutting speed
  - Use tougher cutting tool material grade
  - Significantly increase coolant supply or turn it off
  - Eliminate the use of coolant whenever possible
- ×
  
  Edge Fracture
  Edge Fracture
  
  Cause
  - Caused by excessive insert wear before indexing the insert
  - The grade and geometry could be too weak for the applications
  - Excessive load on the insert
  - Built-up edge has been formed on the insert
  Remedy
  - Use inserts with larger corner radius / chamfer, preferrably single-sided
  - Use cutters of chatter-free geometry
  - Use a tougher cutting tool material grade
  - Reduce feed
  - Apply vibration-dampening toolholders
- ×
  
  Built-up Edge
  Built-up Edge
  
  Cause
  - Cutting zone temperature is too low
  - Negative cutting geometry
  - Machining of very sticky materials such as low-carbon steel, stainless steels, and aluminum
  Remedy
  - Increase cutting speed
  - Use cutters with more positive rake angle and sharper cutting edge
  - Significantly increase coolant supply
  - Use inserts, produced from a tool material grade with a post coating treatment
- ×
  
  Chipping
  Chipping
  
  Cause
  - Caused by either the cutting edge of the insert being too brittle, or a built-up edge has been formed
  Remedy
  - Use inserts, produced from a tougher tool material grade
  - Use inserts with reinforced cutting edge
  - Increase cutting speed
  - Apply cutters with chatter-free geometry
  - Apply vibration-dampening toolholders
- ×
  
  Flank Wear
  Flank Wear
  
  Cause
  - High cutting speed
  - Low wear resistance carbide grade
  Remedy
  - Reduce cutting speed
  - Use a more wear- resistant cutting tool material grade
  - Select a more wear resistant grade
  - For work-hardening materials, select a smaller entry angle
  - Reduce the cutting speed when machining heat resistant materials
- ×
  
  Crater Wear
  Crater Wear
  
  Cause
  - Excessive cutting temperatures and pressures on the top of the insert
  Remedy
  - Reduce cutting speed
  - Reduce feed
  - Use a tool with more positive geometry
  - Use a harder material grade
  - Select a more wear resistant grade
  - Select a more positive insert geometry
  - Reduce the cutting speed or reduce the feed rate to lower the temperature
  - Use higher coolant flow and pressure, consider High pressure coolant
- ×
  
  Plastic Deformation
  Plastic Deformation
  
  Cause
  - Cutting temperature is too high
  Remedy
  - Reduce cutting speed
  - Use a harder material grade
  - Reduce the feed rate
- ×
  
  Thermal Cracking
  Thermal Cracking
  
  Cause
  - Excessive variations in surface temperature, intermittent machining, or variations in coolant supply
  Remedy
  - Reduce cutting speed
  - Use tougher cutting tool material grade with higher thermal resistance
  - Significantly increase coolant supply or turn it off
  - Select a tougher insert grade
  - Eliminate the use of coolant whenever possible
- ×
  
  Edge Fracture
  Edge Fracture
  
  Cause
  - Caused by excessive insert wear before indexing the insert
  - The grade and geometry could be too weak for the applications
  - Excessive load on the insert
  - Built-up edge has been formed on the insert
  Remedy
  - Reduce cutting speed
  - Use endmills of chatter-free geometry
  - Use a tougher cutting tool material grade
- ×
  
  Built-up Edge
  Built-up Edge
  
  Cause
  - Cutting zone temperature is too low
  - Negative cutting geometry
  - Machining of very sticky materials such as low-carbon steel, stainless steels, and aluminum
  Remedy
  - Increase cutting speed
  - Significantly increase coolant supply
  - Use inserts, produced from a tool material grade with a post coating treatment