90° cutting edge | D.O.C. max. 0.059/0.098" (1.5/2.5mm) • Double-sided inserts with 4 cutting edges • Unique geometry for lower cutting loads and longer life  • High rake angle with strong, sharp cutting edges • Designed for high-efficiency plunge milling

Depth of Cut: The maximum depth of cut (DOC) for a specific insert. The maximum DOC is affected by many variables, and may not be achievable under all conditions.

Round edge | D.O.C. max. 0.236" (6.0mm) • Superior perpendicularity and minimized cutting loads • Optimized for high-quality surface finishes • High rake angle lowers cutting loads and minimizes burrs • High-speed and high-feed capability improve productivity

Externalthread reliefchart

90° cutting edge | D.O.C. max. 0.67" (17.0mm) • Designed for high-speed machining of aluminum • Buffed surface for smooth chip evacuation and reduced BUE • High rake angle for good surface finish and lower cutting loads • For square shoulder milling and curved surface machining

90° cutting edge | D.O.C. max. 0.217" (5.5mm) • Superior perpendicularity and minimized cutting loads • Optimized for high-quality surface finishes • High rake angle lowers cutting loads and minimizes burrs • High-speed and high-feed capability imrpove productivity

Thread reliefcallout

45° cutting edge | D.O.C. max. 0.236" (6.0mm) • Positive axial rake, positive radial rake • Large rake angle for faster, easier cutting • Inserts with 4 cutting edges

45° cutting edge | D.O.C. max. 0.138" (3.5mm) • Positive axial rake, positive radial rake • 45-degree cutting edge • Inserts have 8 cutting edges • Screw clamping

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Threadchamfer size chart

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90° cutting edge | D.O.C. max. 0.63" (16.0mm) • Positive axial rake, negative radial rake • 3D helical cutting edge for lower cutting forces • Wiper geometry for high-quality surface finishes • Superior perpendicularity and minimized cutting loads

Threadundercut dimensions metric

Milling Cutter Series: Filter by the Haas Milling Cutter Series to find all the inserts available for that specific cutter. If you don’t know the cutter series (or have a non-Haas cutter body), you can also filter by insert style (shape), or ANSI designation.

90° cutting edge | D.O.C. max. 0.217" (5.5mm) • Superior perpendicularity and minimized cutting loads • Optimized for high-quality surface finishes • 3-face clamping for stable operation in tough conditions • Suitable for plunge milling

Standard chamfer size chart

This price includes shipping cost, export and import duties, insurance, and any other expenses incurred during shipping to a location in France agreed with you as a buyer. No other mandatory costs can be added to the delivery of a Haas CNC Product.

90° cutting edge | D.O.C. max. 0.571" (14.5mm) • Negative axial rake, positive radial rake • 90-degree shoulder mill with rectangle insert • Double-sided, thick inserts for high stability and deeper cuts

90° cutting edge | D.O.C. max. 0.394" (10.0mm) • Positive axial rake, positive radial rake • 35-degree rhombic inserts with two different nose radius options • High polish for excellent surface finish and reduced built-up edges • Large chipbreaker grooves for controlled chip evacuation • Low cutting forces due to the positive cutting edge

17.23° cutting edge | D.O.C. max. 0.07" (1.8mm) • Negative axial rake, negative radial rake • Positive rake angle for lower cutting forces • Strong vibration and impact resistance • Large chip pocket for smoother chip evacuation

There are several variables that go into choosing the correct insert for your milling operations: the specific cutter body being used (milling cutter series), the type of machining operation (toolpath type), the cutting-edge angle (lead angle), the depth of cut, the materials being cut, and more. Use the filters on the left-hand side below to narrow down your choices, and find the inserts you need.

Thread reliefgroove

Curved edge | D.O.C. max. 0.039" (1.0mm) • Low entering angle for high feedrates • High cost-efficiency, with 4-corner inserts • Positive rake angle for lower cutting forces • Wide flank face for rigidity and strong clamping

45° cutting edge | D.O.C. max. 0.275" (7.0mm) • Negative axial rake, positive radial rake • Double-sided, extra-thick insert with 8 cutting edges • Large rake angle reduces cutting forces • Wiper insert geometry for good surface quality

Material Type: Filter by primary workpiece material to find the inserts that are best suited for that specific material. You can also then filter by secondary workpiece material to find inserts that will cut multiple materials.

Thread reliefchart

Internalthread reliefchart

45° cutting edge | D.O.C. max. 0.236" (6.0mm) • Negative axial rake, positive radial rake • Double-sided, extra-thick insert with 8 cutting edges • Low cutting loads and excellent smooth cutting

90° cutting edge | D.O.C. max. 0.649" (16.5mm) • Superior perpendicularity and minimized cutting loads • Optimized for high-quality surface finishes • High rake angle lowers cutting loads and minimizes burrs • High-speed and high-feed capability improve productivity

15° cutting edge | D.O.C. max. 0.071" (1.8mm) • 15-degree high feed mill • Inserts with 4 cutting edges • Ramping possible • Double clamping system for inserts

90° cutting edge | D.O.C. max. 0.303" (7.7mm) • 90-degree shoulder mill • Double-sided, thick insert for high stability and deeper cuts • Inserts with 6 cutting edges

45° cutting edge | D.O.C. max. 0.217" (5.5mm) • Negative axial rake, positive radial rake • Double-sided inserts with 16 cutting edges • Special geometry for consistent cutting and long life • Strong insert and powerful clamping

90° cutting edge | D.O.C. max. 0.591" (15.0mm) • Positive axial rake, positive radial rake • Sharp cutting edge geometry, and robust inserts • First choice for large cutting depths with high feedrates • Specially designed cutting edge, for high-quality shoulder milling