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A special fastener on the back of these discs allows you to easily swap one disc for another.
The premium abrasive stays sharp longer.
These discs have a harder abrasive than standard quick-change discs.
The heavy duty construction provides more support than standard discs for heavy material removal.
These discs have a harder abrasive than standard flexible-edge quick-change discs.
The outer 3/8" of these discs is extremely flexible to prevent marring or gouging your work when sanding a radius or contour.
The abrasive-embedded nylon mesh construction gives you more control over sanding pressure.
Debur, clean, and blend faster than other nylon mesh discs.
Thicker, more pliable, and less aggressive than standard nylon mesh quick-change discs, use these for finer sanding on curved surfaces.
Used for heavy cleaning and stripping, these discs have an abrasive-embedded nylon mesh construction that gives you more control over sanding pressure.
These discs have a long-lasting diamond abrasive.
Fit these discs over your tool's arbor.
A coating prevents dust and debris from building up on the abrasive surface.
Holes in the disc let you see the surface you’re sanding.
The abrasive-embedded mesh construction gives you more control over sanding pressure, creating finer and more consistent finishes.
Fit these discs over your tool’s arbor to sand stainless steel and hard metals.
The premium abrasive stays sharp longer. Holes in the disc let you see the surface you’re sanding.
Used for stripping, these discs eliminate discoloration from heat buildup.
Fit these discs over your tool's arbor to sand masonry, ceramics, and composites.
Fit these discs over your tool's arbor to sand aluminum, soft metals, and nonmetals.
Press onto a compatible sanding tool or backup pad; peel off to remove.
The cushioned construction gives you more control over sanding pressure, creating finer and more consistent finishes.
Holes allow dust removal when used with a vacuum sander.
The thick, abrasive-embedded nylon mesh construction gives you maximum control over sanding pressure.
These discs are abrasive-embedded cloth with a cushioned layer.
Made of foam, these discs can conform to contoured shapes, corners, and sharp edges.
Quickly attach, remove, and reuse these discs with a compatible sanding tool or backup pad.
The premium abrasive lasts longer as well as cuts faster and produces a more consistent finish than standard hook and loop discs.
The mesh backing lets sanding dust and debris escape during use, preventing material build up on the abrasive surface.
Secure the shank into the collet or chuck of your tool.
With more flaps than standard discs, these last 30-40% longer.
Overlapping abrasive flaps bonded to a backing plate provide consistent material removal and even finishes.
These discs have a harder abrasive than standard flap sanding discs.
The abrasive-embedded mesh construction gives you more control over sanding pressure, creating more consistent finishes.
A heavy duty backing plate provides more support than standard discs for heavy material removal.
The flaps alternate between an abrasive to remove material and a lubricant that minimizes heat to reduce discoloration of the work surface.
The backing plate on these discs can be sheared away as the abrasive flaps wear down, allowing you to use more of the disc rather than replacing with a new one.
These discs have a harder abrasive than standard flap sanding discs for corners.
Set at an angle and widely spaced, the overlapping abrasive flaps reach into corners.
The flaps wrap around the outer edge of these discs to sand welds at right angles.
The flaps have an abrasive to remove material and a lubricant that minimizes heat to reduce discoloration of the work surface.
Set at an angle and widely spaced, the flaps reach into corners.
Use with commercial floor buffing machines to sand wood floors and strip tape from concrete.
Use these discs with commercial floor buffing machines to sand wood floors.
These rubber blocks sand flat surfaces.
Made of foam, these blocks flex to sand around curves.
Use with 6" x 9" pads.
Slits on both ends of the block allow you to attach sheets over the flat or curved side.
Blocks hold an adhesive-back sanding roll—cut off worn abrasive and pull out more as needed.
A good value for everyday use, these wheels offer an economical balance between heavy material removal and long life. They are also known as Type 27 wheels, raised-hub wheels, and grinding discs.
Wheels are a blend of aluminum oxide and zirconia alumina, which removes more material and lasts three times as long as our General Purpose Grinding Wheels. They are also known as Type 27 wheels, raised-hub wheels, and grinding discs.
A blend of ceramic alumina and zirconia alumina removes material at a 50% faster rate than our Long-Life Grinding Wheels. Wheels are also known as Type 27 wheels, raised-hub wheels, and grinding discs.
Bonded without any wax or rubber filler, these wheels resist material buildup. They are also known as Type 27 wheels, raised-hub wheels, and grinding discs.
The absence of iron, sulfur, and chlorine in these wheels means they won’t corrode or discolor stainless steel. They are also known as INOX wheels, Type 27 wheels, raised-hub wheels, and grinding discs.
Made with reinforced aluminum oxide, these wheels are designed for light grinding, cutting, and notching in steel pipelines.
Made with aluminum oxide in a diamond pattern, these flexible wheels remove mill scale from metal, including pipe, in a single step.
The flexible backing on these wheels conforms to curved and rough surfaces.
Heat-dissipating holes reduce material buildup and extend the life of the wheel. Wheels have a semiflexible backing that conforms to curved and rough surfaces.
The saucer shape lets you hold these wheels at shallower angles than Type 27 wheels, so they’re more comfortable to handle. They are also known as Type 28 wheels and raised-hub wheels.
A large grinding surface, combined with a thick layer of rough abrasive removes more material than other wheels. They are also known as Type 11 wheels, flared-cup wheels, snagging wheels, and cup stones.
A blend of cotton laminate and aluminum oxide creates a smoother surface than other grinding wheels with similar grits. Wheels are also known as Type 27 wheels and raised-hub wheels.
Multiple layers of nylon mesh embedded with abrasive provide a cushioned grind. Also known as unitized discs or wheels.
Silicon carbide cuts through concrete and stone without generating much heat. Wheels are also known as Type 27 wheels, raised-hub wheels, and grinding discs.
Wheels have a large surface area and a thick layer of rough abrasive for heavy material removal on concrete and stone. They are also known as Type 11 wheels, flared-cup wheels, snagging wheels, and cup stones.
Grind a variety of materials, such as metal, fiberglass, and ceramics. Also known as (AVOS) Type 29 wheels, they have an upside-down dish shape for a large contact area.
Use on 7" and 9" angle grinders and sanders to remove paint, rust, and scale from hard surfaces.
Use these wheels for light grinding, deburring, and sharpening.
Designed to stand up to heavy use, these wheels remove more material than our general purpose grinding wheels.
The perforated honeycomb pattern cuts carbide, ceramics, and glass without the need for cleaning.
The silicon carbide abrasive in these wheels is suspended in rubber for a cushioned grind with light material removal.
Unlike aluminum oxide wheels, these silicon carbide wheels won’t clog when grinding soft metals.
Use these wheels for precision grinding on surface, cylindrical, and tool and cutter grinders. They are also known as Type 1 wheels and straight wheels.
A more durable abrasive allows these wheels to remove more material and last longer than Norton General Purpose Grinding Wheels. They are also known as Type 1 wheels and straight wheels.
Typically used with cylindrical, surface, and ID grinders, these wheels are specially designed to grind the inside diameter of workpieces.
The special shapes of these wheels provide more clearance than typical straight wheels.
The porous bond leaves more space between abrasive grains so heavy amounts of chips and coolant easily flow through.
Made with boron nitride, second in hardness to diamond, these wheels are highly wear resistant and easily cut difficult-to-grind steel parts.
A nickel-coated diamond grit and synthetic resin bond make these wheels extremely hard and wear resistant.
Remove material and shape metal cylindrical forms or parts without the need for centers or fixtures.
Use these wheels for heavy material removal in one spot or along a weld seam. They are also known as Type 1 wheels and snagging wheels.
Wheels remove more material than other grinding wheels with cotton laminate.
A combination of cotton laminate and aluminum oxide abrasive creates a smoother surface than other grinding wheels with similar grits.
Quickly remove vinyl, decals, tape, and double-sided molding striping and trim without damaging the surface below.
Reshape worn grinding wheels so they’ll continue to run straight by holding these truing sticks against the wheels as they turn.
A single point removes more material than cleaners with multiple points.
Furnished with multiple points, these clean faster and leave a more uniform finish than single-point cleaners.
A concentrated amount of diamond abrasive produces a finer finish than other multiple-point cleaners.
Use to clean or create rounded shapes on the wheel surface.
Mount these cleaners to the T-slot of your surface grinder or secure them to a magnetic chuck.
The single point on these cleaners removes more material than multiple-point cleaners.
Mount these truing cleaners to a T-slot to reshape worn diamond and CBN grinding wheels.
Cleaners maintain a consistent speed for minimal diamond loss. Use to reshape worn diamond and CBN grinding wheels.
The larger face offers better control, while multiple points provide a finer finish than single-point cleaners.
Also known as dressing sticks, these can be used to sharpen a variety of abrasive wheels.
Also known as hooded dressers, these cleaners reveal new layers of sharp abrasive and deflect flying chips.
Twist the knurled adjustment knob on these cleaners to advance the replaceable point.
Grind flat stock and flat surfaces with these segments.
The bits in these sets have rubber blended into the abrasive, which cushions during grinding to produce a smooth to extra-smooth surface texture.
The abrasive grains in these bits are blended with rubber, which cushions during grinding to produce a smoother surface texture than other bits with similar grits.
The abrasive grains in these discs are blended with rubber, which cushions during grinding to produce a smoother surface texture than other discs with similar grits. Discs attach to your grinder with a shank.
Bits thread onto mounted shanks so you can quickly switch head shapes without removing the shank. The abrasive grains are blended with rubber, which cushions during grinding to produce a smoother surface texture than other bits with similar grits.
A diamond abrasive that's bonded to a rubber cushioning makes these bits last 10 to 20 times longer than rubber-cushioned bits without diamond. Because they’re cushioned during grinding, these bits produce a smoother surface texture than other bits with similar grits.
Produce a smooth surface on precise, intricate grinding jobs.
Sets contain an assortment of tools for grinding, sanding, and cutting on small surface areas.
Made of aluminum oxide, these bits are well suited for use on most metals and materials that are not heat sensitive.
Set contains a selection of our most popular hex-shank grinding bits. Use them in any drill chuck that accepts a 1/4" hex shank.
Use bits in any drill chuck that accepts a 1/4" hex shank.
Each set contains a selection of our most popular grinding bits.
Bits are specially formulated to stay cool during grinding, so they won’t mar or discolor stainless steel.
Similar to diamond, boron nitride is harder than aluminum oxide and lasts longer. Bits are also known as jig grinding pins and mandrels.
Made of cotton fiber layers embedded with aluminum-oxide grains, these bits grind and finish in one step.
The small 3/32" diameter shank and small head makes these bits good for precise and intricate jobs.
Made of ceramic alumina, these bits prevent material and heat buildup better than bits made of boron nitride and aluminum oxide when used on steel, stainless steel, iron, and titanium.
The diamond abrasive in these bits is extremely hard and lasts longer than tungsten carbide. For longer tool life and improved finish, use a water- or oil-soluble mist or coolant.
Almost as hard as diamond, these tungsten carbide bits cut through nonmetals without generating heat.
Best for grinding composites, fiberglass, plaster, plastic, rubber, and wood without generating heat, these sets include a selection of our most popular tungsten carbide bits.
Made with diamond abrasive, these bits are extremely hard and last longer than tungsten carbide. They have a small shank and head for precise and intricate jobs.
Finish the edges of metal, polymer, and plastic 3D printed parts with the bits, burs, wheels, and brushes in these kits.
The diamond abrasive in these bits is extremely hard and can grind metal, ceramic, and plastic.
Grind a variety of materials, from metal to ceramic and plastic, in precise, detailed jobs.
Best for intricate, precise grinding jobs on metal, ceramic, and plastic, these sets include diamond abrasive bits with different head shapes.
Convert your threaded grinder spindle into a 5/8"-11 size that's compatible with common grinding wheels and sanding discs.
Sharpen, deburr, and grind metal surfaces.
Longer lasting than grinding bits, these abrasive cones remove heavy amounts of material and leave a rough surface texture. They have a threaded insert that attaches to the spindle on a straight grinder. Use in corners and inside castings.
Secure the shank into the collet or chuck of your tool. Attach the quick-change fastener on the sanding disc to the corresponding fastener on the backup pad.
The flexible edge of the sanding disc overhangs these backup pads.
Thread these pads onto the tool’s arbor.
Thread one of these backup pads onto the tool’s arbor, then attach a sanding disc and secure with the disc nut.
These pads are designed to channel air flow to the sanding disc for cooler operation, prolonging the life of the disc.
Designed to rotate independently of the disc, these pads clear material buildup on the abrasive surface for longer disc life.
Holes in the pad align with holes in the sanding disc for a clearer view of the sanding surface.
Mount one of these pads onto the tool's arbor.
Secure the shank into the collet or chuck of a tool.
Thread the stud into the tool's spindle.
Use screws to attach these pads to a tool.
Thread the stud into the tool's spindle and then press the sanding disc onto the backup pad.