Tooling damage form |
Caused |
Countermeasure |
Wear of major flank |
● |
Tooling material is too soft |
● |
Cutting speed is too high |
● |
Back rake angle is too small |
● |
Feeding is too little |
|
● |
Select high wear resistant tooling materialst |
● |
Reduce cutting speedh |
● |
Increase back rake angle |
● |
Increase feeding |
|
Wear of front surface(crescent hole wear) |
● |
Tooling material is too soft |
● |
Cutting speed is too high |
● |
Feeding is too much |
|
● |
Select high wear resistant tooling materialst |
● |
Reduce cutting speedh |
● |
Decrease feeding |
|
Damage (little chipping) |
● |
Tooling material is too hard |
● |
Feeding is much |
● |
Strength of cutting edge is not enough |
● |
Rigidity of tooling rod, tooling holder is not enough |
|
● |
Select tooling material with good toughnesst |
● |
Decrease feeding |
● |
Increase edge regrinding volume
(if it is rounding, change it to chamfer) |
● |
进给量太小 Feeding is too little |
|
Damage |
● |
Tooling material is too hard |
● |
Feeding is much |
● |
Strength of cutting edge is not enough |
● |
Rigidity of tooling rod, tooling holder is not enough |
|
● |
Select tooling material with good toughnesst |
● |
Decrease feeding |
● |
Increase edge regrinding volume
(if it is rounding, change it to chamfer) |
● |
Feeding is too little |
|
plastic deformation(blade sinks) |
● |
Tooling material is too soft |
● |
Cutting speed is too high |
● |
Cutting depth, feeding is too much |
● |
Temperature of cutting edge is too high |
|
● |
Select tooling material with good toughnesst |
● |
Reduce cutting speed |
● |
Reduce cutting depth, feeding |
● |
Select tooling materials with high
coefficient of heat conductivitye |
|
Accumulated lump of chips (number of melting) |
● |
Cutting speed is low |
● |
Cutting edge is not sharp |
● |
Tooling material is not appropriate |
|
● |
Increase cutting speed (S45C: more than 80m/min) t |
● |
Enlarge rake angle |
● |
Select tooling materials with small affinity
(coating, ceramet) |
|
Thermal cracking |
● |
Expansion and shrinkage caused by cutting heatt
|
● |
Tooling material is too hard
※Especially when milling |
|
● |
Dry cutting
(for wet cutting, must have sufficient cooling fluid) |
● |
Select tooling materials with good toughness |
|
Boundary wear |
● |
Oxide chill layer and machining hardened layer
lead to hardening of work piece surface |
● |
Indented cutting cause wear
(produced by little vibration)
|
|
● |
Select high wear resistant tooling materials |
● |
Enlarge rake angle to make cutting edge sharp |
|
Peeling |
● |
Number of melting on cutting edge |
● |
Unsmooth discharge of cut chips |
|
● |
Enlarge rake angle to make cutting edge sharp |
● |
Enlarge blade's chip flute |
|
Wear, damage of major flank
※ This damage happens with ultra high pressure sintered body |
● |
Typical damage caused by insufficient strength
of cutting edge |
|
● |
Increase edge regrinding volume |
● |
Select materials with good damage resistance |
|
Wear, damage of front surface (crescent hole wear)
※ This damage happens with ultra high pressure sintered body |
● |
Tooling material is too soft |
● |
Cutting resistance is large, cutting temperature
is highh |
|
● |
Select materials with good wear resistance |
● |
Decrease edge regrinding volume |
|
