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CoroMill Plura Solid end mills, tipped end mills and thread mills

​​​Below you will find a presentation of the different CoroMill Plura end mills. Click the descriptions in the pictures or scroll down to find the tool best suited for your application and challenges.   

 

Shoulder milling

 

 

 

Full slot milling

Profile milling

 

 

High feed face milling

 

Chamfer and Turn milling

             

Thread milling

   

 

 

Optimized performance

Tools with geometries and grades for specific materials and applications, maximizing production output per time unit.

 

         

 

 

CoroMill® Plura
Optimized

1.   Profile milling

2.   Micro end mills

 

CoroMill® Plura
Flexible

3.   Profile milling

 

 

 

 

 

 

 

 

CoroMill® Plura
Optimized

High feed face milling

 

 

 

 

 

 

 

CoroMill® Plura
Optimized

1.   Turn milling

 

CoroMill® Plura
Flexible

2.   Chamfer milling

 

 

 



CoroMill® Plura
Optimized

  Thread milling

Heavy duty milling

 

    

When to use
  • First choice for heavy roughing operations in steel and stainless steel
  • 2xD full slot capabilities and excellent ramping capabilities

Benefits and features

Stable milling with low vibration

  • Differential pitch reduces vibration
  • Specific cutting edge preparation and relief design for light cutting action in combination with a dampening effect

High metal removal rate

  • High table feed and high chip load capabilities thanks to a combination of optimized flute design and tough grades
  • M-geometry with radial exit internal coolant for improved chip- and temperature control
  • P-geometry available with 4 and 5 teeth

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High feed side milling

 

When to use
  • First choice for CAM supported high feed side milling strategies (e.g. VoluMill, Dynamic Milling etc.)
  • Excellent in intermediate conditions when good surface quality is needed
  • Up to 4xDC cutting length available with chip breaker profile

Benefits and features

Stable machining

  • Unequal helix angle
  • Conical core for maximum stability

Good surface angle

  • Unequal helix angle
  • Micro geometry optimized for each workpiece material

Excellent chip evacuation

  • Conical core design on most cutters

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​Stability and chip space

 

When to use

  • Versatile concept with good performance in most operations and materials
  • First choice in ISO S
  • Recommended for helical interpolation

Benefits and features

Low vibration

  • Differential pitch reduces vibration

Flexibility – good performance in a broad range of operations

  • Variable flute depth: large core at the back for stability and smaller core at the front for chip space
  • 50-degree helix angle

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Aluminium milling

 

When to use

First choice for aluminium, graphite and thermoplastic machining

Benefits and features

Long tool life at high material removal rate

  • Geometry and grade dedicated for aluminium

Great chip evacuation

  • Flute design with large chip space
  • Polished flute on the majority of the tools

Brilliant surface finish

  • Specific cylindrical land reduces tool vibration and minimizes chipping problems

Adjustable overhang and clearance for optimized reach

  • Undersized shank option available

Machining of aluminium with high silicon content, graphite, and thermoplastic possible

  • Diamond coated tools (grade N20C)

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​Shoulder milling​+++
​Slot milling​+++
​Pocket milling​+++
​Helical interpolation​+++
​Ramping​+++
​Plunge milling​++
Shank​Cylindrical
Face geometry
Grade​1730, 1740
ISO material

 

 

 







​Shoulder milling​+++
​Slot milling​+
​Pocket milling​++
​Helical interpolation​++
​Ramping​++
​Plunge milling​++
Shank​Cylindrical, Weldon
Face geometry
Grade​1630, 1640, 1740
ISO material

 

 

 




​Shoulder milling​++
​Slot milling​++
​Pocket milling​++
​Helical interpolation​++
​Ramping​++
​Plunge milling​++
Shank​Cylindrical, Weldon, iLock
Face geometry
Grade​1620, 1630, 1640
ISO material

 

 

 

 







​Shoulder milling​+++
​Slot milling​+++
​Pocket milling​+++
​Helical interpolation​+++
​Ramping​+++
​Plunge milling​+++
Shank​Cylindrical, Undersized
Face geometry
Grade​H10F, N20C
ISO material

 

Roughing to semi-finishing in hardened steel 

 

When to use

First choice for roughing to semi-finishing in hardened steel in stable conditions

  • Use in dry conditions

Benefits and features

Good performance in hardened steel

  • Dedicated geometry
  • Ultra-fine substrate with CIL coating
    High-quality components
  • Extra close diameter tolerance and corner radius tolerance

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Composite milling

When to use

  • When milling composite materials

Benefits and features

  • Superior grades for long life (PCD and CVD)
  • High cutting action for reduced delamination and splintering
  • Dual cutting action for compression cut on both sides of material

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Finishing to super-finishing

 

When to use

  • First choice for finishing and super-finishing in shoulder milling operations
  • Can be used in roughing operations with low radial engagement if high feed rate is wanted (trochoidal strategy)

Benefits and features

Brilliant surface finish

  • Multi-teeth design

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Micro end mills 

 

When to use

  • Small part machining

Benefits and features

Broad range of tools for small component features

  • Square shoulder and ball nose end mills
  • Extra hard grade available for machining in hardened steel

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​Shoulder milling​+++
​Slot milling​+++
​Pocket milling​+++
​Helical interpolation​+++
​Ramping​+++
Shank​Cylindrical
Face geometry
Grade​1610
ISO material


​Shoulder milling​+++
​Slot milling​+++
​Pocket milling+
Helical interpolation++
​Ramping++
ShankCylindrical
Face geometry
GradeH10F, O10M, 010A, 012M, 1630, CD15
ISO material

 

 

 

 






​Shoulder milling​+++
Shank​Cylindrical
Face geometry
Grade​1610, 1620
ISO material

 

 

 




​Shoulder milling​+++
​Slot milling​+
​Profile milling​+++
Shank​Cylindrical
Face geometry
Grade​1620, 1700
ISO material

High feed face milling

 

When to use

  • High feed face milling
  • High feed roughing of 3D-shapes

Benefits and features

Reduced bending

  • High feed face geometry gives mainly axial cutting forces

High metal removal rate

  • More than double the feed per tooth compared to a normal end mill thanks to the high feed face geometry

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Profile milling

 

When to use

  • Profiling operations in all materials

Benefits and features

Wide assortment of tools for all materials

  • Straight, conical and spherical design
  • Large grade assortment

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Chip breaker profile

 

When to use

  • When small chip size is needed
  • Problem solver in unstable conditions

Benefits and features

Low cutting forces and power consumption

  • Chip-breaker geometry gives small chips

Very low vibration

  • Chip-breaker geometry gives small chips

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Turn milling

 

When to use

  • Turn milling

Benefits and features

  • High metal removal rate
  • Superb chip control

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Thread milling

 

When to use

  • First choice when you do not want to risk tap breakage on expensive parts. The thread mills can always be removed from the component completely.

Benefits and features

  • For both right- and left hand internal threads
  • Two different designs available depending on the application, one with few cutting edges and one multi-point design
  • Individual radius programming (RPRG) value marked on the shank, giving the exact pitch diameter and radius correction required for optimum thread quality
  • Up to 3 × diameter
  • The threads are milled in one or more passes and the multi-point tool gives a true full profile 60-degree metric thread form. UNC, UNF, NPT, NPTF and G are available as options

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Optimized P M​ K​ ​N ​S ​H O
Heavy duty milling +++​ ​+++ +++​ +++​ ​+++ ​++
High feed side milling +​ ​+++ ​++ ++​ ++​ ++​
Stability and chip space ++​ ++​ ​++ ​++ ++​ ​++
Aluminium milling ​+++ +++​ +++​ +++​ ​+++ +++​
Roughing to semi-finishing in hardened steel +​ ​++ +​ ​+ +​
Composite milling +++
Finishing to super-finishing ​+++
Micro end mills ​+ +++​ +++​
High feed face milling +++​ ​++ ​+++
Profile milling +++
Chip breaker profile++ ++​ ++​ ++​ ++​
Turn milling +++
​​Thread milling +++​

 

 

Flexible machining

Tools designed for high-performance and secure machining in a variety of applications, component sizes, shapes and materials, allowing maximum machine utilization.

 

 

 



​Face milling​+++
​Pocket milling​++
​Helical interpolation​+++
Shank​Cylindrical
Face geometry
Grade​1610, 1620
ISO material

 

 

 

 

 



​Profile milling​+++
Shank​Cylindrical, undersized
Face geometry
Grade​1610,1620,1630,1700, H10F,N20C,P10
ISO material

 

 






​Shoulder milling​++
​Slot milling​++
​Pocket milling​++
​Helical interpolation​++
​Ramping​++
Shank​Cylindrical, weldon, iLock
Face geometry 
Grade1620, 1640, H10F
ISO material

 

 

 




Turn milling​+++
Shank​Cylindrical
Face geometry
Grade​1730, 1740
ISO material

 

 

 














Thread milling​+++
Shank​Cylindrical, Weldon
Grade​Four grades optimized for different ISO material groups
ISO material

Universal 30-35° helix end mills - 2 flutes

 

When to use

  • When large chip space is needed
  • For key slots (P9 tolerance)

Benefits and features

Flexibility

  • Versatile geometry and grade

Great chip evacuation

  • Two teeth
  • Flute designed for large chip space

Stable machining

  • Relief designed for stability

Broad assortment

  • From extra short to long lengths
  • With and without Weldon shank

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Universal 30-35° helix end mills - 3 flutes

 

When to use

  • A compromise between cutters with two teeth and cutters with four teeth – higher feed than cutters with two teeth but less chip space

Benefits and features

Flexibility

  • Versatile geometry and grade

Stable machining

  • Relief designed for stability

Broad assortment

  • From extra short to extra long lengths
  • With and without Weldon shank

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Universal 30-35° helix end mills - 4 flutes

 

When to use

  • More stable than cutters with two- and three teeth due to larger core, but have less chip space
  • Preferable in shoulder milling

Benefits and features

Flexibility

  • Versatile geometry and grade

Stable machining

  • Reinforced core

Broad assortment

  • Two different lengths
  • With and without Weldon shank

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Universal 45° helix end mills – 3 flutes

 

When to use

  • When a smooth cut is needed
  • Suitable for soft materials because of sharper geometry compared to cutters with three teeth and 30-degree helix angle
  • Problem solver for ramping operations when cutters with three teeth and 30-degree helix angle do not perform satisfactory

Benefits and features

Flexibility

  • Versatile geometry and grade

Good performance in stainless steel and soft steel

  • Sharp cutting geometry and grade GC1620

Different shank options

  • With and without Weldon shank

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Universal 45° helix end mills – 4 flutes

 

When to use

  • When a smooth cut is needed
  • Suitable for soft materials because of sharper geometry compared to cutters with four teeth and 35-degree helix angle
  • Problem solver for ramping when cutters with four teeth and 35° helix angle do not perform satisfactory
  • Good for finishing operations

Benefits and features

Flexibility

  • Versatile geometry and grade

Good performance in stainless steel and soft steel

  • Sharp cutting geometry and grade GC1620

Broad assortment

  • Two different lengths
  • With and without Weldon shank
  • Available with two grades

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Chip breaker profile

 

When to use
  • When small chip size is needed
  • Problem solver in unstable conditions

Benefits and features

Flexibility

  • Versatile geometry and grade

Low vibration

  • Differential pitch
  • Unequal helix angle

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Profile milling

 

When to use
  • Profiling with the same tool in multiple materials

Benefits and features

Flexibility

  • Versatile geometry and grade

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Chamfer milling

  

When to use
  • Chamfering with the same tool in multiple materials
  • 45-degree and 60-degree chamfer angles
  • When creating convex radii 0.5–6.0 mm (0.020–0.236 inch)

Benefits and features

Flexibility

  • Versatile geometry and grade

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​Shoulder milling​+
​Slot milling​+++
​Pocket milling​+
​Helical interpolation​+
​Ramping​+
​Plunge milling​++
Shank​Cylindrical, Weldon
Face geometry
Grade​1630
ISO material

 

 

 

 

 

 

 

​Shoulder milling​++
​Slot milling​++
​Pocket milling​+
​Helical interpolation​+
​Ramping​+
​Plunge milling​++
Shank​Cylindrical, Weldon
Face geometry
Grade​1630
ISO material

 

 

 

 

 

 

​Shoulder milling​+++
​Slot milling​+
​Pocket milling​++
​Helical interpolation​+
​Ramping​+
​Plunge milling​+
Shank​Cylindrical, Weldon
Face geometry
Grade​1630
ISO material

 

 

 

 



​Shoulder milling​++
​Slot milling​++
​Pocket milling​++
​Helical interpolation​++
​Ramping​++
​Plunge milling​++
Shank​Cylindrical, Weldon
Face geometry
Grade​1620
ISO material

 

 

 

 

 

 

 

​Shoulder milling​+++
​Slot milling​+
​Pocket milling​+++
​Helical interpolation​++
​Ramping​++
​Plunge milling​+
Shank​Cylindrical, Weldon
Face geometry
Grade​1620, 1630
ISO material

 

 

 











​Shoulder milling​+++
​Slot milling​++
​Pocket milling​++
​Helical interpolation​++
​Ramping​++
​Plunge milling​+
Shank​Weldon
Face geometry
Grade​1640
ISO material

 

 

 

 

 






​Profile milling​+++
Shank​Cylindrical
Face geometry
Grade​1620, 1630
ISO material

 

 

 

 

 

 

 

​Chamfering inside​+++
​Chamfering outside​+++
Shank​Cylindrical, Weldon
Face geometry
Grade​1620
ISO material

 

 

Flexible PM​K​​N​S​HO
Universal 30-35° helix end mills+++​​++++​+​​+​++
  ​     2 teeth+​++​+​+++​++​
  ​     3 teeth++​++​​+​++​​++
  ​     4 teeth​++++​++​+​​++​
Universal 45° helix end mills +​+​++++++​​++++​++​
    3 teeth​++​++++​​++​++++​
     4 teeth+​​++++++​​++++​​+
Chip breaker profile​+++++​​++++​++​+​
​Profile milling​+++
Chamfer milling+++​+++​

 

 

 
 
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