Milling geometries quick
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Cutting Geometries -41 Is a general purpose geometry applied to utility ground inserts. This economical geometry is available with a number of insert styles for use in all approach angles. This geometry has positive cutting action and reinforced cutting edge for roughing applications in Steel, Steel Alloys, Stainless Steel and Cast Iron. -42 Is a general purpose geometry. The positive rake and T-land combine to create a strong cutting edge. The -42 geometry withstands high cutting forces and interrupted cuts. This geometry can be used for roughing and semi- nishing in Steel, Steel Alloys, Titanium, High Temperature Alloys and Stainless Steel with excellent results. -43 This is a general purpose geometry designed to handle tough conditions and interruped cuts with larger axial depth of cuts. It is applied to utility ground inserts with ground wiper edges for closer axial runout tolerance. This geometry is primarily used in Steel, Steel Alloys, Stainless Steels and Cast Irons. -44 This geometry is peripheral ground with a ground facet for producing the best surface quality in most materials while reducing cutting pressure and power consumption. For nishing applications in Steel, Steel Alloys, Stainless Steels, High Temperature Alloys and Cast Iron.

Cutting Geometries -45 This geometry is designed for machining a wide range of materials and applications. It is available on utility ground inserts with ground wiper edges. The –45 geometry provides freer cutting operations and reduces the “suction effect” associated with higher helical geometries. This geometry is quali ed for Steel, Steel Alloys, Stainless Steels, and Cast Iron. -46 This positive geometry with high accuracy periphery grinding gives a positive cutting action. The precise treatment of the cutting edge ensures effective machining in roughing, semi- nishing and nishing...

-412 This high positive gometry is slightly more positive than the -41. This geometry improves tool life on several applications when machining Stainless Steel and High Temperature Alloys. -421 This high positive geometry with high accuracy periphery grinding. For use in semi-finishing and finishing applications. Due to the precise control of the cutting edge, this geometry provides excellent results when machining High Temperature Alloys. -422 This positive geometry with a 11° chip angle and an “E” edge preparation for roughing and semi finishing applications. Primarily for machining of...

-423 A strong positive geometry first with a smaller primary angle and a small controlled hone to reduce cutting pressures, followed by a higher secondary angle to allow free cutting of the chip without rubbing on the insert rake face. Chip flow compresses the chip for easy evacuation. For roughing and semi-finishing of Nickel Based Alloys, Cobalt Alloys, Stainless Steels, Titanium Alloys and High Temperature Alloys. -441 This geometry is a peripheral ground insert with a sharp cutting edge for use on Aluminum Alloys, Copper and Brass. The -441 geometry provides freer cutting operations and...

-701 This extreme high positive geometry is highly suitable for finishing a wide range of materials at low feedrates. This geometry provides a freer cutting action particulary in Aluminum. Titanium and High Temperature Alloys can also be finished machined when the -701 geometry is combined with grade SP4019 or SP6519. This geometry is precision ground and gives excellent performance when machining thin-walled components. -721 This geometry is periphery ground with a pressed, polished top rake face reducing built up edge. This economical geometry gives excellent results in machining Aluminum...

-3M This geometry has the strength of a flat top “W” insert, however its helical cutting edges helps to reduce machine power consumption. -D This High Feed geometry fully ground with flat top and variable hone has been designed to machine Steel, Steel Alloys, Tool Steel, Cast Irons and Hardened Materials up to 534HBN. US Patent # 7,220,083 & EP1689548. -D41 This positive High Feed geometry primarily used to machine Stainless Steel, High Temperature Alloys and Titanium. It can also be used for machining Steel, Steel Alloys and Cast Iron with excellent results. The -D41 geometry also reduces...

-D411 This positive High Feed geometry with larger corner radius (0.047”) 1,2mm reduces cutting energy and provides better edge protection during lower radial engagement applications. Mainly for machining Titanium, High Temperture Alloys and Stainless Steel. It can also be used for machining Steel, Steel Alloys and Cast Irons with extremely good results. US Patent # 7,220,083 & EP1689548. -D721 This highly positive High Feed geometry is designed for machining Aluminum, Copper and Brass. The periphery ground, polished top rake face and sharp edge allows a freer cutting action and reduces...

-RA This geometry is a precision insert for milling Cast Iron. The extended wiper-facet on this insert geometry allows a 50% higher feed rate for higher productivity. This geometry is available with SC3025, our leading Cast Iron milling grade. -RG..S This geometry is designed for finish machining of 3D profiles. It is extremely accurate and delivers a very long tool life. The RG..S is excellent when machining a side wall that is close to 90°. Suitable for machining of all materials. -T This geometry is for general purpose applications when a strong cutting and excellent chip breaking...

-TN This geometry is a flat top design with a strong T-land edge preparation for preventing chipping in unstable conditions. This geometry is similar to the -SN geometry, but has a smaller edge preparation which reduces machine power consumption. For machining Steel, Steel Alloys and Cast Iron. Should also be used to machine Stainless Steel and Titanium with heavy scale. -SN This geometry is our strongest cutting edge for general purpose applications and is ideal for unstable cutting conditions, long overhangs and very high feedrates. For heavy duty applications when machining Steel, Steel...