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A double hinge provides high cutting force with low gripping pressure. These cutters are also known as aviation snips.
Keep your hand away from the material being cut.
Blades are high-speed steel so they stay sharp longer than steel blades, and they can be sharpened.
The handles are angled 90° from the blade so you can cut material from directly above tight spaces.
This cutter has two blades that cut a 1/8" wide strip—peel it back for smooth edges with little distortion.
Prevent waste from flying up as you work. A double blade makes two cuts to create a 7/64"-wide step that peels back, leaving little distortion and smooth edges.
These cutters make straight cuts and curves.
Also known as bulldog snips, these have long handles and short blades for cutting through thick sheet metal with less effort than standard sheet metal cutters.
Blades are tapered to give you more control when cutting straight lines, tight curves, and circles, and they're serrated to prevent slipping. These cutters are also known as duckbill snips.
Replace blades as they wear. These cutters are also known as tinners' snips.
Made from aluminum bronze, the blade and handle on these cutters inhibit sparking and are FM approved. Use them for straight cuts.
Handles are angled to keep your hand away from the material as you cut straight lines and curves.
Sized and shaped like pliers, these sheet metal cutters are small enough to fit in your tool belt.
Make round, square, and irregular-shaped holes with this punch-style hole cutter.
Cut up to 1" deep V-shaped notches in sheet metal.
Punch small pieces out of material to create an almost burr-free cut with no material distortion.
A double blade creates two cuts and a 7/32" wide waste strip that peels back, leaving two smooth edges with little distortion.
Use to cut patterns in flat material with minimal material loss and less effort compared to manual cutters.
Minimize material loss and edge distortion with these scissor-like cutters that cut metal up to 1/64" thick.+
Also known as slotting shears, these cutters have a double blade that creates two cuts and a 7/32" wide waste strip that peels back, leaving two smooth edges with little distortion.
These nibblers punch small pieces out of material to create an almost burr-free cut with no material distortion.
Also known a scissor-blade shears, the bottom blade remains stationary while the upper blade moves up and down to cut metal up to 1/64" thick with minimal material loss and edge distortion.
Turn your portable drill into a punch cutter for cutting curved and straight shapes in flat and corrugated sheet metal and plastic.
Make straight, clean cuts in thick sheet metal.
A 12" long blade makes long, straight cuts in thin metals and flexible materials. Not for use on phenolic or other rigid materials.
This large-capacity cutter has a 25" blade for long, straight cuts.
Turn your workpiece while cutting to create curves and complex shapes.
Combine the cutting base and a corner punch to make rounded corners in sheet metal.
Notch, cut, and pierce a variety of materials including metal, plastic, and vinyl.
Make straight cuts in sheets. These cutters are foot operated so your hands are free to position the material.
Mount this cutter to the floor and use it to cut through steel angle iron up to 2"×2"×1/4".
Leave clean cut edges in a variety of pliable materials.
A double hinge provides high cutting force with low gripping pressure.
Insulated handles protect against shock from accidental contact with live electrical circuits. These cutters are tested to 1,000 volts to meet IEC 60900 and ASTM F1505.
The carbide-tipped steel jaws stay sharp longer than standard steel jaws. You can sharpen them as they wear. These cutters have a double hinge that provides high cutting force with low gripping pressure.
Plastic-cushioned grips make these cutters easy to hold during repeated cuts.
Cut hard steel wire, nails, and small rivets close to the surface with the wide, flat jaws on these cutters.
Also known as nippers, these cutters have wide, flat jaws that cut steel wire and bolts close to the surface.
Make accurate, flush cuts through small wire with these tweezer-style cutters.
These powerful cutters make diagonal cuts with a nipping action to cut extra-hard wire with ease.
Cut thin, hard wire with these small cutters.
The small size and spring-loaded jaw lets you make quick cuts with one hand.
Handle is angled 30° to keep work in sight and hands clear of the work surface. Blades are flat on one side for close-to-the-surface cuts.
Cut through hard metal bolts, chain, and padlocks with these cutters.
Cut medium steel chain and hard steel bolts, rods, screws, rivets, nails, bars, wire, and rebar.
Blades are flat on one side for close-to-the-surface cuts.
Slice through bolts and chain with low effort.
The cutting head is angled 30° from the handles, so you can cut close to a surface or in a tight space without the handles getting in your way.
Make repeated cuts in hard materials with cutters that mount for stability and provides extra leverage.
Minimize material distortion while cutting steel and stainless steel wire rope.
Keep your hands in a comfortable position so you can apply more force for cutting.
Cutters have double hinge that provides high cutting force with low gripping pressure.
A small grip enables one-handed cutting.
With a quick hammer blow, these cutters make cuts without squeezing or flattening wire.
These manually operated cutters make a clean cut with just a few pumps of the handle.
Use the lever to make one-handed cuts with minimal material distortion. Cutter mounts to a workbench for extra stability and ease of use for repeated cuts.
Make clean cuts on threaded rod with the pull of a trigger.
An alternative to hacksaws and bandsaws, these cutters use leverage to cut rods cleanly in a single stroke.
Cut rods and bolts while leaving their threads intact.
Hydraulic-powered jaws cut bolts, wire rope, rods, and electrical cable with low effort and minimal material distortion.
Also known as diagonal-cutting pliers.
These cutters are stainless steel, which provides excellent corrosion resistance.
Cut armored cable such as BX, HCF, and MC and flexible metal conduit.
Use these one-handed cutters on small-diameter aluminum and copper power and communication cable.
Produce clean, distortion-free cuts in cable with one-handed operation.
Push the button to cut aluminum and copper power and communication cable.
Minimize wire distortion when cutting 11/16" diameter and larger aluminum and copper power and communication cable.
Jaws ratchet to increase cutting pressure as you open and close the handles.
Pull the lever on these cutters to make smooth cuts in steel and aluminum DIN rail without leaving a bur.
Use these wheels to cut through metal such as aluminum, iron, stainless steel, and steel.
Use these wheels for cutting soft metal, plastic, stone, and wood.
A ceramic alumina abrasive cuts through stainless steel.
Use these wheels to cut through metal such as iron, stainless steel, and steel.
Often used on duct, these ultra-thin wheels make fast, clean cuts in thin metal that minimize burrs and discoloration from heat.
Also known as Type 27, raised-hub, and depressed-center cutoff wheels, these wheels outperform Type 1 wheels when making flush cuts in metal.
With an X-shaped arbor hole, these wheels quickly and safely click into X-lock grinders without wrenches or flange nuts.
Made of premium grade abrasives, these wheels are strong and thick for making notches in aluminum, iron, stainless steel, and steel.
Switch between cutting and deburring aluminum, iron, stainless steel, and steel without the need to change your wheel.
Made with diamond, the strongest abrasive material, these wheels are extremely hard and wear resistant, so they stand up to ceramics and glass.
Also known as Type 27, raised-hub, and depressed-center cutoff wheels, these wheels outperform Type 1 wheels when making flush cuts.
Made of premium grade abrasives, these wheels make fast, burr-free cuts in stainless steel.
Made of premium grade abrasives, these wheels are strong and thick for making notches in stainless steel.
Prevent corrosion and discoloration on stainless steel—these wheels contain less than 0.1% iron, chloride, and sulfur contaminants.
Make cuts in hard, brittle materials such as firebrick, stone, and concrete.
Ideal when working across multiple materials, these wheels are specially constructed to cut plastic, fiberglass, concrete, and ceramic, as well as metal.
Made of ceramic alumina or a combination of ceramic alumina and zirconia alumina, these wheels last up to ten times longer than standard cutoff wheels when cutting hard metal such as Inconel, Hastelloy, and tool steel.
Made of ceramic alumina, these wheels last 10 times longer than standard cutoff wheels when cutting hard metal, such as tool steel. These wheels, also known as Type 27, raised hub, and depressed-center cutoff wheels, outperform Type 1 wheels when making flush cuts.
Premium-grade abrasive materials and two layers of fiberglass mesh reinforcement give these wheels a longer life than standard cutoff wheels when cutting metal such as iron, stainless steel, and steel.
These high-density ceramic or ceramic oxide wheels have two layers of fiberglass mesh reinforcement and last up to twice as long as long-life cutoff wheels when cutting iron, stainless steel, and steel.
Run these high-density aluminum oxide wheels at higher speeds than standard cutoff wheels to make quick cuts in aluminum, iron, stainless steel, and steel.
Use these clog-resistant zirconia alumina wheels to make quick cuts in soft metal such as aluminum, brass, and copper.
The combination of ceramic alumina and zirconia alumina in these wheels lasts up to ten times longer than aluminum oxide when cutting hard metal such as Inconel, Hastelloy, and tool steel.
With less than 0.1% iron, chloride, and sulfur contaminants, these wheels prevent corrosion and discoloration on stainless steel.
For quick cuts in stainless steel, run these high-density zirconia alumina wheels at a higher rpm than standard cutoff wheels.
These steel wheels have a diamond grit edge, so they last longer than standard bench-grinder cutoff wheels when cutting hard, nonferrous materials such as carbide, ceramics, and glass.
Made with boron nitride, second only in hardness to diamond, these wheels are highly wear resistant, so they easily cut steel with a Rockwell hardness of C50 or greater, including alloy steel, A2, D2, and T15 tool steel.
An extra-fine layer of fiberglass mesh reinforcement allows these wheels to make smoother cuts than standard bench-grinder cutoff wheels when cutting metal such as aluminum, iron, stainless steel, and steel.
These wheels are thinner than standard bench-top cutoff saw wheels, so they cut through aluminum, iron, stainless steel, and steel more quickly.
Make fast, burr-free cuts in stainless steel with these premium aluminum oxide wheels.
Use these clog-resistant wheels to make quick cuts in soft metal such as aluminum, brass, and copper.
These wheels are reinforced with fiberglass mesh and designed to last longer than standard wheels when cutting ductile cast iron.
These wheels are designed to cut stainless steel. They are reinforced with a layer fiberglass mesh.
Designed to cut sheet metal.
Use these wheels to cut through metal such as iron and steel. They are reinforced with a layer of fiberglass mesh.
These wheels have a blend of aluminum oxide and silicon carbide abrasives for cutting ductile cast iron.
Two layers of fiberglass mesh reinforcement give these fast-cutting, zirconia alumina wheels at least three times the life of standard cutoff wheels when aluminum, iron, stainless steel, and steel.
These wheels have a zirconia alumina abrasive for cutting ductile cast iron.
These non-reinforced aluminum oxide wheels create the nearly polished finish required for testing metal.
Make cuts in most metal, including aluminum, iron, stainless steel, and steel.
Make fast, clean cuts in steel sheets, angle iron, rebar, and pipe with the carbide teeth on these blades.
Cut stainless steel sheets, pipe, tubing, and grating with teeth made of impact-resistant carbide.
Teeth are carbide tipped and designed to push chips away from the blade to prevent clogging and produce smooth cuts in aluminum sheets, tubing, and T-slotted framing.
Prevent clogging when cutting soft metal—these blades have plenty of space between the carbide-tipped teeth to allow chips to escape.
Diamond grit bonded to a segmented edge cuts through hard metal such as cast iron.
Cut plastic, wood, and soft metal such as aluminum, brass, and copper.
Blades and teeth are steel and treated to a Rockwell Hardness between C63 and C65 for increased wear resistance when cutting through steel and cast iron bars, rods, pipe, and tubing.
Use these titanium carbonitride (TiCN) coated blades on stainless steel.
These high-speed steel saws cuts through aluminum, brass, bronze, and steel.
Cut through spot welds on sheet metal and make faster, more precise cuts than drill bits and other hole saws.
Make clean, fast cuts in thin metal and plastic when you use one of these saws with an impact driver. The body widens at the top to prevent the saw from pushing through your workpiece.
The carbide teeth on these steel saws cut aluminum, brass, bronze, steel, and plastic sheets and last up to twice as long as high-speed steel teeth.
An extra-thick steel body with carbide teeth can cut through stainless steel structural framing and electrical enclosures.
Attach these saws to your portable drill to cut a range of large diameter hole sizes in sheet metal.
Use these saws with a drill press to cut a variety of hole sizes in sheet metal.
The carbide teeth on these saws last up to twice as long as high-speed steel teeth.
Specially designed teeth cut faster than the teeth on standard hole saws.
These standard saws have high-speed steel teeth.
Quickly connect these saws to your drill or drill press with the built-in arbor.
The carbide-tipped teeth on these saws last up to twice as long as high-speed steel teeth.
These saws have high-speed steel teeth.
The carbide teeth on these steel saws cut hard metal such as steel, stainless steel, cast iron, and titanium.
Lower cutting depths than standard hole saws make these saws less likely to rip or tear while making smooth, burr-free cuts in sheets.
These kits have saws with high-speed steel teeth and a steel body.
The saws in these kits have carbide-tipped teeth, so they last up to twice as long as saws with high-speed steel teeth.
Tooth size and number per inch are constant throughout the blade.
These progressive-tooth blades have small, fine teeth at the shank end that gradually increase to larger teeth at the tip for fast cutting.
Make quick cuts—this progressive-tooth blade has small, fine teeth at the shank end that gradually increase to larger teeth at the tip.
Small, fine teeth at the shank end of this progressive-tooth blade gradually increase to larger teeth at the tip for fast cuts.
Also known as a bimetal blade, this carbon steel blade has high-speed steel teeth and lasts longer than high-speed steel blades.
Keep a convenient mix of T-shank jigsaw blades on hand.
A selection of U-shank jigsaw blades for a variety of applications is included in these assortments.
A pointed tip makes plunge cuts in metal.
These blades are wide to cut through multiple layers. They're also known as demolition blades.
The teeth on these blades are set in a pattern specially designed to cut faster than other blades for metal.
Teeth are coated with wear-resistant titanium nitride (TiN) so they last longer than blades with uncoated teeth.
These blades have uncoated teeth.
Also known as scroll-cutting blades, these are narrow to cut tight curves.
Cut tight curves with a narrow blade. It's also known as a scroll-cutting blade.
Tooth size and number per inch are constant throughout these blades.
The teeth on these blades vary in size and pattern to reduce vibration and produce smooth cuts. They're also known as variable-set blades.
Teeth are coated with titanium nitride (TiN) for wear resistance and longer life than uncoated teeth.
The teeth on these blades are carbide-tipped so they last longer than long-life blades with coated teeth.
Also known as demolition blades, these wide blades cut through multiple layers.
These wide blades cut through multiple layers. They're also known as demolition blades.
Also known as variable-set blades, the teeth on these vary in size and pattern to reduce vibration and produce smooth cuts.
All include a selection of blades for a variety of applications.
Teeth vary in size, number per inch, and pattern to reduce vibration, so they create a smoother finish than Long-Life Band Saw Blades. They're also known as variable-set blades.
Tooth size and number per inch are constant throughout the blade
Cut structural shapes such as I-beams and angle iron as well as bundles of structural shapes and tubing with less tooth breakage than other blades. The teeth are reinforced, forward-angled, and widely spaced to leave room for chips to collect.
Make clog-free cuts in thick cross sections of steel, aluminum, brass, bronze, wood, and plastic. These blades have forward-angled teeth and plenty of space for chips to collect.
Teeth vary in size, number per inch, and pattern to reduce vibration, so they create a smoother finish than Long-Life Band Saw Blades for Thin Metal. They're also known as variable-set blades.
Made from flexible carbon steel, these blades cut curves.
These carbon steel blades are good for making straight cuts.
Make straight cuts with these carbon steel blades.
Cut curves with these flexible carbon steel blades.
Titanium aluminum nitride (TiAlN) coated, precision-ground teeth cut quickly and leave a smooth edge on stainless steel, nickel, and titanium.
Carbide grit bonded to alloy steel blades cuts through hard materials such as hardened steel, graphite, fiberglass, composites, and nickel alloys including Hastelloy and Inconel.
Also known as variable-set blades, these have teeth that vary in size, number per inch, and pattern to reduce vibration so they create a smoother cut than Portable Band Saw Blades.
The teeth on these blades vary in size, number per inch, and pattern to reduce vibration, so they create a smoother cut than Portable Band Saw Blades for Thin Metal. They're also known as variable-set blades.
Made from flexible carbon steel, these blades bend to cut curves.
These blades have teeth with a constant size and number per inch throughout the blade.
Teeth vary in size, number per inch, and pattern to reduce vibration, so they create a smoother cut than Long-Life Band Saw Blade Coil Stock for Thin Metal. They're also known as variable-set blades.
Create a smoother cut than Long-Life Band Saw Blade Coil Stock—these blades have teeth that vary in size, number per inch, and pattern to reduce vibration. They're also known as variable-set blades.
Cut straight lines with these rigid carbon steel blades.
These carbon steel blades are rigid to make straight cuts.
These blades have a body and teeth made from a single material.
This progressive-tooth blade has small, fine teeth that gradually increase to large teeth for fast cuts.
Teeth are ground into a forward angle for 30% more cutting power than long-life blades.
Made of beryllium copper that is FM approved, these blades satisfy OSHA requirements that specify nonsparking tools for locations where flammable vapors and combustible residues are present.
Cut metal, wood, and wood with nails.
For extra leverage to cut through Kevlar, metal, and plastics, these scissors have long handles and short blades.
After each cut, the jaws spring open to make continuous cutting easy.
Cut through the strong fibers of Kevlar.
Insulated handles protect against shock from accidental contact with live electrical circuits. These scissors are tested to 1,000 volts to meet IEC 60900 and ASTM F1505.
Trim flush against a flat surface with the curved blades on these small scissors.
These small scissors have narrow, sharp tips for fine cutting and trimming.
Short blades make these scissors easy to maneuver in cramped areas for small, detailed cuts less than an inch long.
Prevent snags and injury with the rounded points on these small scissors.
Cut and strip wire in tight spaces with the compact tips on these scissors.
Protect sensitive equipment from harmful static discharges while cutting and stripping wire.
Also known as electricians' shears, the back edge of the blade has a file to clean contacts.
S-shaped handles keep your hand clear of material, so you can cut flush against flat surfaces.
Make clean cuts through duct tape and other sticky materials.
Swap accessories quickly and safely without tools.
The quick-change arbors in these kits allow you to easily swap accessories.
Turn Dremel rotary tools into miniature drill presses.
Polish, deburr, and remove rust from metal surfaces such as tools, machine parts, and electrical contacts.
Sharpen, deburr, and grind metal surfaces.
Screw these hangers onto your workbench.
Complete a wide range of cutting, grinding, and sanding tasks by pairing these accessories with your rotary tool.
Replace the brush and spring on your rotary tool.
Shape and smooth wood, fiberglass, and rubber surfaces or remove rust from metal.
Cut holes, slots, and shapes in workpieces.
Attach cutoff wheels to a Dremel grinder.
Pair with Dremel rotary tools to securely grip bits and burs.
This drum is required to use a sanding sleeve with a Dremel grinder.
They may look like normal pliers, but these tools have a built-in crimping die.
The insulated handles on these crimpers protect against shock from accidental contact with live electrical circuits.
Crimp pin-and-sleeve contacts in connectors.
Strip wire and crimp connectors with one tool.
Insulated handles protect against shock from accidental contact with live electrical circuits while stripping wire or crimping connectors.
One squeeze strips insulation and pulls it off the wire.
With just one tool, you can strip Ethernet cable and crimp connectors onto it.
Strip coaxial cable and crimp connectors onto it with one tool.
Keep one hand free while cutting and trimming strapping.
Two-handed strap cutters give you more leverage than one-handed strap cutters.
Slip strapping into the slot and rotate the handle to snap the strap.
Also known as 40‐ton metalworkers, these hydraulic machines handle a variety of forming tasks including pressing, punching, notching, and shearing.
Save space in your shop by cutting, bending, and curving sheet metal with a single machine. Also known as shear brake rolls.
When there isn't clearance to use standard-grip pliers, the angled head on these tools gives you access. Also known as lineman’s and combination pliers, use them to pull, bend, and cut wire.
Also known as lineman’s and combination pliers, use these tools to pull, bend, and cut wire.
Extra-long handles enable access to hard-to-reach areas. Also known as lineman’s and combination pliers, use these tools to pull, bend, and cut wire.
Additional features, such as wire terminal crimpers, enable you to perform a variety of electrical wiring and installation work with a single tool. Also known as lineman’s and combination pliers, these pliers have long jaws that pull, bend, and cut wire and other small workpieces.
Deep serrations provide the firm grip necessary for pulling rebar tie wire, and the hook-shaped handle end keeps your hand from slipping off. Also known ironworkers’ pliers, these tools also bend and cut wire.
Made of aluminum-bronze that is FM approved, these pliers satisfy OSHA requirements that specify nonsparking tools for locations where flammable vapors and combustible residues are present. Use them to pull, bend, and cut wire.
Secure a lanyard to the ring on the handle to prevent dropping your pliers when working at height. Use these tools to pull, bend, and cut wire.
Made of stainless steel or titanium, these pliers are good for environments where moisture and other contaminants are present.
Insulated grips protect against accidental contact with live electrical circuits. These pliers are tested to 1,000 volts to meet IEC 60900 and ASTM F1505. Use them to pull, bend, and cut wire.
Avoid the potential for an arc flash or short circuit that can occur when using conventional insulated tools with metal components. Completely metal-free, these pliers are plastic with ceramic cutting blades. They are tested to 1,000 volts to meet IEC 60900 and ASTM F1505. Use to pull, bend, and cut wire.
Cut packing seals to precise angles so they fit end to end without gaps, preventing leaks in pumps and valves.