We will reply to your message within an hour.
Constructed of a carbide tip brazed onto a ground steel shank, these tools are more wear resistant than high-speed steel tools.
An extra-long shank provides additional reach.
Cut small grooves inside a workpiece for insertion and removal of O-rings.
The carbide tip brazed onto these blades is more wear resistant than high-speed steel.
A carbide tip brazed onto a ground steel shank makes these tools more wear resistant than high-speed steel tools.
Machine circular grooves onto the end of a workpiece.
The carbide tip brazed onto the ground steel shanks of these tools is more wear resistant than high-speed steel.
Solid carbide provides more rigidity than carbide-tipped tools.
A carbide tip brazed onto a ground steel shank makes these tools less brittle than solid carbide tools.
These are the smallest boring tools we offer.
The long steel shank on these tools can reach farther inside the workpiece than standard boring tools.
Use these tools to enlarge existing holes to precise diameters.
Insert the square shank of these tools into the slot of a boring tool holder and use them to enlarge existing holes to precise diameters.
Form concave or convex edges on a workpiece.
Contour the interior wall of a hollow workpiece.
These sets contain some of the smallest boring tools we offer.
Reduce tooling setup time—install the holder once and alternate between applications by switching out the bit.
Choose these premium turning carbide inserts to cut a variety of materials without changing out your tool.
Use these carbide inserts for general purpose turning.
Optimized for use on steel, these inserts can run at higher cutting speeds and will last longer than inserts for multiple materials.
Heat resistant and wear resistant, these inserts cut super alloys—such as Inconel and Waspaloy—and titanium better than general use inserts.
Heat resistant and shaped for turning stainless steel specifically, these inserts will last longer than inserts for multiple materials.
Made of an abrasion-resistant carbide designed for turning cast iron, these inserts will last longer than inserts for multiple materials.
Cut aluminum, copper, brass, and other non-ferrous materials with these premium inserts.
Secure carbide inserts inside these holders for stable turning.
These sets have five indexable turning tools with carbide inserts and a wood storage stand. When one edge of a tool's insert dulls, rotate it to use a sharp edge.
These tools come with carbide inserts installed. When one edge of the insert dulls, rotate it to use a sharp edge.
These inserts can cut grooves on both the outside and inside of a workpiece depending on the holder used.
Install these inserts into a compatible holder to cut external or internal threads on a workpiece.
Pair these holders with a threading insert or a grooving insert to make cuts on the outside of a workpiece.
Pair these holders with a threading insert or a grooving insert to make cuts on the inside of a hollow workpiece.
A carbide insert comes installed on these tools.
Combine a holder and carbide insert to perform cutoff and grooving tasks on a lathe.
Fit these holders directly into a lathe tool post or appropriately sized holder without the need for a tool block.
Mount blade-style holders to a lathe tool post or turret.
Pair these holders with a tool block for right- and left-hand mounting in a lathe.
The rounded nose on these inserts contours the outside of the workpiece and cuts grooves with rounded edges.
Cut square corner grooves in a workpiece or cut completely through a part.
These sets have a variety of indexable boring insert holders with carbide inserts and a wood storage stand. When one edge of a tool's insert dulls, rotate it to use a sharp edge to enlarge existing holes to precise diameters.
Use these tools to enlarge existing holes to precise diameters. They come with an insert installed. When one edge of the insert dulls, rotate it to use a sharp edge.
Pair one of these inserts with a compatible boring carbide insert holder with coolant hole.
Deliver coolant through the holder to keep workpieces cool while boring tough materials, such as steel, stainless steel, and nickel-based alloys.
These holders conform to ANSI standards.
Contour the interior wall of a hollow workpiece when you pair a holder with a compatible insert.
Combine a carbide insert with a compatible internal profiling holder to create a tool that can contour the interior wall of a hollow workpiece.