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Also known as scroll chucks, these are self centering—all three jaws move in unison, centering the workpiece as they close.
Consistently position workpieces in a three-jaw lathe chuck by installing a chuck stop. These stops enable short workpieces to extend beyond the chuck's jaws, providing additional clearance.
No need to break down a collet set up when a workpiece doesn't fit a 5C collet. Install one of these lathe chuck adapters in your 5C collet chuck or holder and its three jaws will securely grasp the workpiece.
When a job calls for a 5C collet, save time by using an adapter instead of removing your lathe chuck.
Machine these jaws to fit the curves and edges of your unique workpiece for a tighter hold and more stability than standard hardened jaws.
Made from hardened steel, these jaws have a long service life even when performing heavy machining such as roughing cuts.
Also known as lathe chuck keys, the long T-handle on these wrenches provides the leverage to open tight lathe chucks.
When hand pressure is released, these wrenches automatically pop out of lathe chucks to keep users and machines safe from harm. Use them to prevent accidents that can occur when someone forgets to remove their wrench before turning on a lathe.
Secure jaws to a CNC lathe chuck with industry standard 1.5 mm × 60° serrations or wider 3 mm × 60° serrations.
Hold machinable lathe chuck jaws in place during machining to make accurate cuts, ensuring the jaws will securely grip your workpiece.
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.
Cut small grooves inside a workpiece for insertion and removal of O-rings.
An extra-long shank provides additional reach.
Constructed of a carbide tip brazed onto a ground steel shank, these tools are more wear resistant than high-speed steel tools.
The diamond tip on these tools offers superior cutting performance on nonferrous and nonmetallic materials, such as aluminum, copper, fiberglass, and plastic.
A carbide tip brazed onto a ground steel shank makes these tools less brittle than solid carbide tools.
Solid carbide provides more rigidity than carbide-tipped tools.
When cutting threads in nonferrous and nonmetallic materials, such as aluminum, copper, fiberglass, and plastic, diamond tips provide superior cutting performance.
The carbide tip brazed onto the ground steel shanks of these tools is more wear resistant than high-speed steel.
Form concave or convex edges on a workpiece.
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.
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 shaped for turning stainless steel specifically, these inserts 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.
Cut aluminum, copper, brass, and other non-ferrous materials with these premium inserts.
Made of an abrasion-resistant carbide designed for turning cast iron, these inserts will last longer than inserts for multiple materials.
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 are made with a black alumina ceramic on the cutting edges. Compared to carbide inserts, ceramic lasts longer in hardened-steel tooling applications because it is chemically inert and has better heat resistance.
Replace clamps, screws, seats, and slotted pins in carbide insert holders.
Resisting wear and fractures when cutting hardened steel, these cubic boron nitride inserts last longer than carbide inserts.
These tools come with one high-speed steel insert for use on steel and stainless steel and one high-speed steel insert for use on softer materials, such as aluminum and brass. When one point of an insert dulls, rotate it to use a sharp point.
A carbide insert comes installed on these tools.
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.
Combine a holder and carbide insert to perform cutoff and grooving tasks on 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.
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.
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.
Pair one of these inserts with a compatible boring carbide insert holder with coolant hole.
Combine a carbide insert with a compatible internal profiling holder to create a tool that can contour the interior wall of a hollow workpiece.
Attach these tools to a manual lathe.
These tools are specially designed to perform heavy duty knurling applications using a CNC lathe.
Work faster by using two knurls at the same time.
Create a knurled pattern on the end of a workpiece.
These arbors with chuck allow drills with a Morse taper spindle to accept standard drill bits.
The Morse taper end fits into a machine spindle and the Jacobs taper end is compatible with a Jacobs taper drill chuck.
The Morse taper end fits into a machine spindle and the threaded end is compatible with a thread-mount drill chuck.
One end is made of soft steel that can be machined to an exact size and shape; the other end is a Morse taper that fits into a machine spindle.
For better control when drilling small holes with a drill press or milling machine, the attachment on these arbors lets you apply light feed pressure with your fingers while the machine rotates the bit.
These arbors are compatible with straight spindles, which are most often found on manual lathes and CNC machines.
Use with R8 taper spindles which are most often found on manual milling machines.
When installed into a 3J collet chuck or holder, these collets securely grip workpieces.
The head on these collets acts like a mandrel to support the inside of a hollow workpiece. It can be machined to fit the exact ID of your part.
Also known as emergency collets, these collets have a machinable face for boring an opening to the exact size and shape you need.
Insert into a 16C collet chuck or holder to tightly grip workpieces.
Also known as step collets.
These collets tightly grip workpieces when installed into a 5C collet chuck or holder. They provide a stronger hold on small workpieces than a standard lathe chuck. Choose from collets that can grip round-, hexagon-, or square-shaped workpieces.
When installed into a 3J collet chuck or holder, these collets securely grip round workpieces. They provide a stronger hold on small workpieces than a standard lathe chuck.
Insert into a 16C collet chuck or holder to tightly grip round workpieces. They provide a stronger hold on small workpieces than a standard lathe chuck.
These collets tightly grip workpieces when installed into a 5C collet chuck or holder. They provide a stronger hold on small workpieces than a standard lathe chuck.
Install and remove 5C collets in CNC lathes.
Grip square-shank lathe tools.
Four flat head screws lock down round-shank tools in a precision-ground bore for increased rigidity over other round-shank tool holders.
A V-groove enables these holders to grip round-shank as well as square-shank tools.
A built-in drill chuck allows quick installation of drill bits, taps, and other round- or hex-shank tools into a quick-change tool post.
These holders work with any 5C collet to rigidly grip drill bits, taps, end mills, and other tools.
Mount any tool with a Morse taper shank to a quick-change tool post.
For fast accessory changes without any other tools, twist these wrenches to loosen and tighten the collet on your Dremel grinder.