Your tool code:
F289VM18
L1=150L3=88L2=80f0.3x45°D1=20D2=20D3=19.5α=20°Z=7D1=20
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After verification, your configuration can be produced.

Milling cutter type

Milling operation
Milling cutter type
  • Performmaker
    Performmaker
  • Slotmaker
    Slotmaker
  • Chipmaker
    Chipmaker
  • Mirrormaker
    Mirrormaker
  • Balancemaker
    Balancemaker
  • Formmaker
    Formmaker
  • Slopemaker
    Slopemaker
  • Performmaker Micro
    Performmaker Micro
  • Formmaker Micro
    Formmaker Micro

Shank

Shank diameter

D2

  • 4
  • 5
  • 6
  • 7
  • 8
  • 9
  • 10
  • 12
  • 13
  • 14
  • 15
  • 16
  • 18
  • 20
  • 22
  • 25
  • 32
Chamfer length (shank)
mm
Weldon
  • HA - without weldon
    HA - without weldon
  • HB - Weldon
    HB - Weldon
  • HE - Weldon
    HE - Weldon

Geometry

Total length

L1

mm
Cutting length

L2

mm
Cutting diameter

D1

mm
Corner type
  • Sharp-edged
    Sharp-edged
  • Corner chamfer
    Corner chamfer
  • Corner radius
    Corner radius
Corner chamfer length
mm
Corner chamfer angle
°
Cutting edge count

Z

  • 2
    2
  • 3
    3
  • 4
    4
  • 5
    5
  • 6
    6
  • 7
    7
  • 8
    8
  • 9
    9
  • 10
    10
  • 11
    11
  • 12
    12
  • 13
    13
  • 14
    14
  • 15
    15
  • 16
    16
Cutting geometry
  • No cutting geometry
    No cutting geometry
  • Center cutting
    Center cutting
  • Non-center cutting
    Non-center cutting
Unequal tooth pitch
  • Yes
    Yes
  • Application specific
    Application specific
Polished flutes
  • Yes
    Yes
  • Application specific
    Application specific
Cutting profile
  • Straight cutting
    Straight cutting
Cutting direction
  • Left
    Left
  • Right
    Right
Spiral direction
  • Left
    Left
  • Right
    Right

Undercut

Undercut geometry
  • Conical undercut
    Conical undercut
  • Straight undercut
    Straight undercut
Undercut length

L3

mm
Undercut diameter

D3

mm
Angle alpha

α

°

Milling environment

Cooling duct
  • Yes
  • No
Cooling
  • Air
    Air
  • Minimum lubrication
    Minimum lubrication
  • Cooling lubricant
    Cooling lubricant
  • Oil
    Oil
  • Dry
    Dry

Material

Material
  • N1.1
    ALUMINUM | alloyed <500N
  • N1.2
    ALUMINUM | alloyed <600N
  • N2.1-2.3
    ALUMINIUM | casted <600
  • N3.1
    COPPER | alloyed <600N
  • N4.1
    MAGNESIUM | alloyed <200N
  • N5.1
    PLASTICS | thermoplastics <100 N
  • N5.2
    PLASTICS | duroplastics <150 N
  • P1.1
    STEEL | unalloyed <500 N
  • P1.2-1.5
    STEEL | unalloyed <1100 N
  • P2.1-2.2
    STEEL | low alloyed <950 N
  • P2.3-2.4
    STEEL | low alloyed <1300 N
  • P3.1-3.2
    STEEL | high alloyed <1100 N
  • P3.3
    STEEL | high alloyed <1400 N
  • H1.1
    HARDENED STEEL | 46-55HRC
  • H1.2
    HARDENED STEEL | 56-60HRC
  • H1.3
    HARDENED STEEL | 60-65HRC
  • H1.4
    HARDENED STEEL | 66-70HRC
  • M1.1
    STAINLESS STEEL | ferritic/martensitic <850 N
  • M2.1
    STAINLESS STEEL | austenitic <650 N
  • M2.2
    STAINLESS STEEL | austenitic <750 N
  • M3.1
    DUPLEX STEEL | super austenitic <1100 N
  • S1.1
    IRON BASED ALLOY | HRSA <1200 N
  • S1.2
    NICKEL-BASED ALLOY | HRSA <1450 N
  • S1.3
    COBALT BASED ALLOY | HRSA <1200 N
  • S2.1
    TITANIUM | pure; alloyed <600N
  • S2.2
    TITANIUM | alloyed <1000N
  • S2.3
    TITANIUM | alloyed <1400N
  • K1.1-1.2
    CASTING | gray cast iron <1000 N
  • K2.1-2.2
    CASTING | modular cast iron <850 N
  • K3.1-3.2
    CASTING | malleable cast iron <800 N
  • O1.1
    PLASTICS | fiber composites content
  • O1.2
    PLASTICS | fiber composites
  • O2.1
    GRAPHITE | pure
DIN material
  • P
    Unalloyed and high-alloy steels, cast iron
  • M
    Stainless steels
  • K
    Cast iron
  • N
    Non-ferrous metals
  • S
    Heat Resistant Super Alloys (HRSA)
  • H
    Hardened steel (45-68 HRC)
  • O
    Non-ISO
Coating
  • Application specific
    Application specific
  • No
    No