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When one end wears out, switch to the opposite end for two times the life of a standard carbide end mill. Made of solid carbide, these end mills are harder, stronger, and more wear resistant than high-speed steel and cobalt steel for the longest life and best finish on hard material. Use them to round sharp corners on the edge of your workpiece.
The cutting end of these end mills is solid carbide, which is harder, stronger, and more wear resistant than high-speed steel and cobalt steel for the longest life and best finish.
Use these versatile end mills for milling in most material, including aluminum, brass, bronze, iron, and steel.
With better heat and wear resistance than high-speed steel, these cobalt steel end mills run at higher speeds and provide better performance on hard material. They have scooped corners for rounding the sharp edges of your workpiece.
Use these end mills for general purpose work in most material, such as aluminum, brass, bronze, iron, and steel. With curved, side-cutting teeth, they create hollow, inward-curving grooves.
Made of carbide-tipped steel, these end mills maintain a sharper, harder edge at high temperatures than high-speed steel. They have curved, side-cutting teeth for creating hollow, inward-curving grooves.
A scalloped profile creates rounded, outward-curving edges.
For longer tool life and a better finish in general purpose milling applications, these solid carbide end mills are harder, stronger, and more wear resistant than high-speed steel and cobalt steel end mills. Often used for slotting and pocketing cuts in mold and die making, these end mills have a 90° profile and rounded corners, which reduce flute breakage and chipping.
With a wear-resistant coating and high helix angle, these end mills provide excellent shearing and chip removal in stainless steel and titanium. Often used for slotting and pocketing cuts in mold and die making, these end mills have a 90° profile and rounded corners, which reduce flute breakage and chipping.
Variable spacing between the flutes reduces vibration, allowing these end mills to provide fast cuts, smooth finishes, and long tool life. They have a high helix angle and a wear-resistant coating for excellent shearing and chip removal in stainless steel and titanium.
Replicate the shape of complex parts with these end mills.
These end mills have either a neck or shank that’s extended and has a reduced diameter—this prevents them from rubbing against your workpiece when deep milling. Variable spacing between the flutes reduces vibration, allowing the end mills to provide fast cuts, smooth finishes, and long tool life on hard materials.
Variable spacing between the flutes reduces vibration, allowing these end mills to provide fast cuts, smooth finishes, and long tool life on hard materials.
With a mill diameter of 3 mm or less, these end mills are great for precise, detailed work such as in electronics, mold making, and medical-device manufacturing.
With a diamondlike coating (DLC), these end mills are sharp enough to cut aluminum, brass, and bronze.
Increase your productivity with these end mills that make a shallow cut and produce thin chips that are easily cleared.
Variable spacing between the flutes reduces vibration, allowing these end mills to provide fast cuts, smooth finishes, and long tool life.
A diamond coating on these end mills allows them to machine abrasive material, such as carbon fiber, fiberglass, and graphite.
Made of cobalt steel, these end mills have good heat and wear resistance, so they can run at high speeds in hard material. Often used for slotting and pocketing cuts in mold and die making, they have a 90° profile and rounded corners, which reduce flute breakage and chipping.
Form concave or convex edges on a workpiece.
An extra-long shank provides additional reach.
Contour the interior wall of a hollow workpiece.
Reduce tooling setup time—install the holder once and alternate between applications by switching out the bit.
The rounded nose on these inserts contours the outside of the workpiece and cuts grooves with rounded edges.
Use these carbide inserts for general purpose turning.
Made of an abrasion-resistant carbide designed for turning cast iron, these inserts will last longer than inserts for multiple materials.
Optimized for use on steel, these inserts can run at higher cutting speeds and will last longer than inserts for multiple materials.
Cut aluminum, copper, brass, and other non-ferrous materials with these premium inserts.
Choose these premium turning carbide inserts to cut a variety of materials without changing out your tool.
Heat resistant and shaped for turning stainless steel specifically, these inserts will last longer than inserts for multiple materials.
Resisting wear and fractures when cutting hardened steel, these cubic boron nitride inserts last longer than carbide inserts.
Combine a carbide insert with a compatible internal profiling holder to create a tool that can contour the interior wall of a hollow workpiece.