We will reply to your message within an hour.
Use these wheels to cut through metal such as iron, stainless steel, and steel.
Also known as Type 27, raised-hub, and depressed-center cutoff wheels, these wheels outperform Type 1 wheels when making flush cuts in metal.
Often used on duct, these ultra-thin wheels make fast, clean cuts in thin metal that minimize burrs and discoloration from heat.
With an X-shaped arbor hole, these wheels quickly and safely click into X-lock grinders without wrenches or flange nuts.
Switch between cutting and deburring aluminum, iron, stainless steel, and steel without the need to change your wheel.
Made of premium grade abrasives, these wheels are strong and thick for making notches in aluminum, iron, stainless steel, and steel.
Made of premium grade abrasives, these wheels make fast, burr-free cuts in stainless steel.
Also known as Type 27, raised-hub, and depressed-center cutoff wheels, these wheels outperform Type 1 wheels when making flush cuts.
Prevent corrosion and discoloration on stainless steel—these wheels contain less than 0.1% iron, chloride, and sulfur contaminants.
Made of premium grade abrasives, these wheels are strong and thick for making notches in stainless steel.
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.
Ideal when working across multiple materials, these wheels are specially constructed to cut plastic, fiberglass, concrete, and ceramic, as well as metal.
Make cuts in hard, brittle materials such as firebrick, stone, and concrete.
Made with diamond, the strongest abrasive material, these wheels are extremely hard and wear resistant, so they stand up to ceramics and glass.
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.
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.
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.
For quick cuts in stainless steel, run these high-density zirconia alumina wheels at a higher rpm than standard cutoff wheels.
With less than 0.1% iron, chloride, and sulfur contaminants, these wheels prevent corrosion and discoloration on stainless steel.
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.
Use these clog-resistant zirconia alumina wheels to make quick cuts in soft metal such as aluminum, brass, and copper.
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 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.
These wheels are thinner than standard bench-top cutoff saw wheels, so they cut through aluminum, iron, stainless steel, and steel more quickly.
Make burr-free cuts in hard or thick materials, such as metal pipes, bars, and sheets.
Make burr-free cuts in metal tubing and extrusions, such as strut channels and rails.
Make fast, burr-free cuts in stainless steel with these premium aluminum oxide wheels.
These wheels are reinforced with fiberglass mesh and designed to last longer than standard wheels when cutting ductile cast iron.
Use these clog-resistant wheels to make quick cuts in soft metal such as aluminum, brass, and copper.
From stone to rubber to metal—slice through a variety of materials with the same cutoff saw wheel.
Made from bonded silicon carbide abrasives, these wheels slice through titanium, one of the hardest materials to cut.
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 non-reinforced aluminum oxide wheels create the nearly polished finish required for testing metal.
These wheels have a zirconia alumina abrasive for cutting ductile cast iron.
Use these wheels to cut through metal such as aluminum, iron, stainless steel, and steel.
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.
The loose weave of the reinforcement material means more of the abrasive grain contacts the metal as you're cutting for a faster cut than standard cutoff wheels.
Cut a variety of materials—from rubber to metal to stone.
These wheels are designed to cut stainless steel. They are reinforced with a layer fiberglass mesh.
Made of diamond abrasive, these wheels cut ceramics, tile, and other abrasive materials.
A ceramic alumina abrasive cuts through stainless steel.
Use these wheels for cutting soft metal, plastic, stone, and wood.
These steel wheels have a diamond grit edge for making cuts in abrasive materials such as ceramic and tile.
Make cuts in most metal, including aluminum, iron, stainless steel, and steel.
These blades have a continuous edge with diamond grit to cut through ceramics.
A tungsten carbide grit edge cuts through abrasive materials such as composites and fiberglass.
Cut plastic, wood, and soft metal such as aluminum, brass, and copper.
The segmented edge on these blades is coated with diamond grit for cutting plastic.
A blend of tungsten carbide and diamond grits on the continuous edge of these blades cuts hard, nonmetallic materials including composites and graphite.
The edge of the blade is segmented to cut faster than a continuous edge.
A continuous edge on these blades produces smooth cuts.
A continuous edge on these blades produces smooth cuts. It's coated in diamond grit to cut hard, abrasive materials such as masonry, stone, asphalt, and concrete.
The carbide-grit edge on these blades cuts brittle and abrasive materials including glass and fiberglass.
Cut wood, plywood, and particleboard.
These blades have a heat-resistant coating to prevent material buildup.
Also known as dado-head blades, these are for cutting grooves in all types of wood.
Cut through hidden nails in reclaimed lumber. The carbide-tipped steel teeth on these blades are designed to handle impact as they cut across and with the grain (ripping).
Use these blades for occasional cutting.
Use these blades with water or coolant to produce smoother cuts in tile than dry-cutting blades. They're also for use on glass.
A razor-sharp knife edge minimizes dust and makes quick, clean cuts through foam sheets such as expanded polystyrene insulation and extruded polystyrene.
Make clean cuts in rubber and plastic hose with the scalloped knife edge on these blades.
Produce smooth cuts in plastic materials including polycarbonate, polyurethane, PVC, and acrylic with the carbide-tipped teeth on this blade.
Diamond grit bonded to a segmented edge cuts through hard metal such as cast iron.
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.
Cut steel and stainless steel without having to change blades—the ceramic/carbide blend teeth on these blades cut both.
No need to change blades when cutting different material—these blades cut through both metal and wood.
Use with water or coolant to produce smoother cuts in tile than dry-cutting blades. They're also for use on glass.
A blend of tungsten carbide and diamond grits on the continuous edge of this blade cuts hard, nonmetallic materials including composites and graphite.
Also known as rip blades, these steel blades have large, forward-angled, carbide-tipped teeth for making fast cuts.
With a large number of teeth, these blades make smooth cuts across the wood grain for a finish that needs minimal sanding.
Produce smooth cuts in plastic materials including polycarbonate, polyurethane, PVC, and acrylic with the carbide-tipped teeth on these blades.
Spend less time on blade changes when cutting steel and stainless steel. These blades have teeth that are a blend of ceramic and carbide, so they cut both materials and last five times longer than blades with standard carbide teeth.
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 blades have a higher concentration of diamonds than other dry-cutting blades, so they last up to three times longer.
The blade edge is coated in diamond grit.
Use these blades with water or coolant to produce a smooth cut and minimize heat buildup
Attach cutoff wheels, grinding wheels, and other abrasive wheels to hand-held drills and die grinders.
Attach cutoff wheels to a Dremel grinder.
Install cutoff wheels, grinding wheels, and other abrasive discs to the threaded shaft on bench-top motors, grinders, and buffers.
Mount cutoff wheels, grinding wheels, and other abrasive discs to the straight shaft on bench-top motors, grinders, and buffers.
Swap accessories quickly and safely without tools.
Swap out accessories on your Dremel without tools.
The quick-change arbors in these kits allow you to easily swap accessories.
Complete a wide range of cutting, grinding, and sanding tasks by pairing these accessories with your rotary tool.
For fast accessory changes without any other tools, twist these wrenches to loosen and tighten the collet on your Dremel grinder.