Make precise cuts to paper, plastic, fabric, and other materials with these sharp blades.

These thick blades are durable to cut through tough material such as leather, rope, and thick cardboard.

These blades are wider than other breakaway blades to cut through tough materials such as leather, rope, and thick cardboard.

A pen-style handle gives you a comfortable hold as you make precise cuts with the sharp blade on these knives.

Cut curves and circles with a blade that rotates 360°.

Reduce hand fatigue with the cushioned rubber grip on these knives.

These blades are spring-loaded to automatically retract inside the knife the moment you release the slide button or squeeze handle.

Cut cardboard, paper, plastic, and other packaging material in your food processing plant.

Store these knives in your pocket and prevent accidental cuts when they’re not in use—simply slide the button to retract the blade.

Cut through packing tape, blister packaging, paper, and other thin materials while keeping your hands safe from punctures and cuts. Unlike utility knives with a standard blade, these have a double-angle blade that creates an effective cutting edge while safeguarding fingers.

Avoid accidents—a spring-action guard keeps the blade covered until you press on the cutting surface.

A notched blade scores acrylics and brittle plastics for a clean break.

Snap off a dull blade segment to expose a sharp edge.

Use the narrow blades on these knives to cut in tight spaces.

Prevent slipping and get a comfortable hold while working in tight spaces—this knife has rubber insert in the handle and a narrow blade.

Load six blades at once for quick blade changes.

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.

A pointed tip makes plunge cuts in metal.

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.

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.

Also known as variable-set blades, the teeth on these vary in size and pattern to reduce vibration and produce smooth cuts.

Tooth size and number per inch are constant throughout these blades.

These blades have teeth that are coated in wear-resistant titanium nitride (TiN) so they last longer than blades with uncoated teeth.

Also known as demolition blades, these are wide for cutting through multiple layers of wood.

The diamond grit bonded to the edge of these steel blades lasts up to 30 times longer and cuts twice as fast as carbide grit.

Cut in two directions with teeth on both sides of the blade.

The edge of the blade is segmented to cut faster than a continuous edge.

The edge of the blade is segmented to cut faster than a continuous edge.

Cut wood, plywood, and particleboard.

These blades have a heat-resistant coating to prevent material buildup.

Square-shaped teeth cut across the grain and with the grain (ripping) in reclaimed lumber and flooring with embedded nails.

Produce smooth cuts in plastic materials including polycarbonate, polyurethane, PVC, and acrylic with the carbide-tipped teeth on this blade.

A razor-sharp knife edge minimizes dust and makes quick, clean cuts through foam sheets such as expanded polystyrene insulation and extruded polystyrene.

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.

The edge of the blade is segmented to cut faster than a continuous edge.

The edge of the blade is segmented to cut faster than a continuous edge.

These blades have a heat-resistant coating to prevent material buildup.

Cut wood, plywood, and particleboard.

Also known as dado-head blades, these are for cutting grooves in all types of wood.

Use 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.

Produce smooth cuts in plastic materials including polycarbonate, polyurethane, PVC, and acrylic with the carbide-tipped teeth on these blades.

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.

Cut stainless steel sheets, pipe, tubing, and grating with teeth made of impact-resistant carbide.

These blades have a continuous edge with diamond grit to cut through ceramics.

The segmented edge on these blades is coated with diamond grit for cutting plastic.

The blade edge is coated in diamond grit.

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.

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.

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.

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.

These carbon steel blades are good for making straight cuts.

Make straight cuts with these carbon steel blades.

These are also known as scallop-edge blades.

The teeth on these steel blades are carbide tipped, so they'll last longer and produce a smoother cut than other band saw blades when cutting fiberglass, plastic, and composites.

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.

Made from flexible carbon steel, these blades cut curves.

These rigid carbon steel blades make straight cuts.