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These steel ball bearings handle higher loads than stainless steel and plastic bearings.
Wider than our standard ball bearings, these rugged bearings are good for handling heavy loads at low speeds.
Use these bearings where high speed and precision are not required.
With a spherical raceway and two rows of balls, these bearings compensate for shaft misalignment.
Good for use in electric motors and power generators, these bearings have ceramic balls that insulate against stray current to prevent damage to the bearing.
For use on tapered shafts and round shafts with adapter sleeves, these ball-bearings have a spherical raceway to compensate for shaft misalignment.
Internal locking elements (sprags) lock to transmit torque in one direction while turning freely in the other direction.
These 316 stainless steel bearings are more corrosion resistant than our other stainless steel bearings, but they have a lower load capacity.
Made of slippery plastic, these bearings do not require lubrication and have excellent corrosion and chemical resistance.
With two rows of balls, these lightweight bearings have greater durability and load capacity—and a wider profile—than single-row plastic bearings.
Made of PVDF, these bearings resist moisture absorption, so they won’t warp in underwater applications.
The flange ensures proper positioning inside a tube or housing.
Install these acetal bearings in caustic environments and where lubrication can’t be used. They have good all-around corrosion and chemical resistance.
Slip these bearings onto a shaft and secure with the included set screws, no special tools required.
Secure these bearings in washdown areas, such as food, beverage, pharmaceutical, and chemical plants, by tightening the set screw onto a shaft—no additional collar needed.
Made with either PEEK or graphite, these ball bearings work in applications that are too hot for most other ball bearings.
Unlike other ball bearings, these do not need to be fully inserted into a housing. A spline around the outside of the bearing creates a permanent, secure hold in thin panels.
Install these bearings for use with combined radial and thrust loads. They are often used in spindle applications and can be combined with cylindrical roller bearings to better handle radial loads.
An ABEC-7 rating means these bearings are made to some of the tightest tolerances, so they operate at the highest speeds.
Steel balls and washers allow these bearings to handle higher loads than bearings with stainless steel components.
A combination of stainless steel and nylon components provide increased corrosion resistance over standard thrust ball bearings.
Also known as drawn-cup roller bearings, these are our thinnest roller bearings. The outer ring is drawn out to form a lip that holds the bearing together.
These bearings have higher radial load capacity, speed, and accuracy than standard needle-roller bearings.
The needles in these bearings roll freely in one direction, but lock to transmit torque when the rotation of the shaft is reversed. Also known as drawn-cup roller clutches.
With cylindrical rollers to distribute load over a large surface area, these bearings are often used to support heavy loads at high speeds in applications such as power generation and metal recycling.
Thinner rollers allow these bearings to fit in tighter spaces than tapered-roller thrust bearings.
Cylindrical-roller thrust bearings handle higher loads than needle-roller thrust bearings. They also run at faster speeds than tapered-roller thrust bearings.
A metal shell adds strength.
Use where high loads and speeds are not required.
Use these bearings in applications with frequent starts and stops because they operate with very little friction.
Made of FDA-listed materials or FDA compliant, these bearings are for use in food applications. They also withstand caustic and washdown environments.
These bearings stand up to a wider range of chemicals than other dry-running sleeve bearings.
Reinforced with polyester fabric, these plastic bearings have load and speed capabilities comparable to metal bearings.
Good for underwater applications, these bearings won’t swell or warp when wet.
Permanently and securely install these self-clinching bearings into panels, with no need for precision-bored holes or machined mounts.
Even in the presence of harsh chemicals and extreme temperatures, these bearings operate under heavy loads and at high speeds.
A slit running along the length of these bearings allows you to quickly slip them into a housing—no tools required.
Made of FDA listed materials for use in food applications, these bearings also withstand caustic and washdown environments.
An aluminum shell adds strength.
Compensating for minor shaft misalignment and not requiring lubrication, these sleeve bearings swivel to self-align and are dry running. They don’t need a housing and you can install and replace them without any tools because they’re slip fit.
These bearings stand up to a wider range of chemicals than other dry-running flanged sleeve bearings.
Made of acetal with a PTFE filler, these bearings handle velocities up to twice as high as standard acetal bearings. They swivel to compensate for a small amount of shaft misalignment.
A metal backing adds strength.
These bearings stand up to a wider range of chemicals than other dry-running thrust bearings.
Use these bearings in corrosive environments and under water.
The lubricant in these mounted ball bearings is NSF registered H1 and FDA compliant for incidental contact with food.
Made from slippery materials, these bearings reduce friction without the oily mess.
Use these UHMW bearings in wet, corrosive environments.
Made of acetal blended with PTFE, these bearings handle speeds twice as fast as standard sleeve bearings.
These nylon bearings swivel inside their housing to compensate for over 20° of shaft misalignment.
Use these bearings for light loads and small shafts. The closed backing blocks out dust and other contaminants.
Embedded lubricant particles increase the load capacity of these bearings while also making them slippery.
Use these nylon or acetal bearings for light loads. The closed backing blocks out dust and other contaminants.
Made of acetal with a PTFE filling, these light duty bearings handle speeds twice as fast as standard acetal bearings can.
Handling speeds twice as fast as standard mounted sleeve bearings while limiting wear on your system, these bearings are made of PTFE-filled acetal.
Made of FDA listed PEEK, these bearings are suitable for direct contact with food. The closed backing blocks out dust and other contaminants.
The lubricant in these mounted ball bearings is suitable for incidental contact with food.
With all three mounting holes on one side, you can position the bearing above or below the mounting surface.
Made of high-performance plastic, these insert bearings last longer than metal insert bearings. They also don’t require lubrication.
Use ball bearings in debris-free environments and when speed is a necessity. They operate with less friction than sleeve bearings, so you can run them at higher speeds.
Designed to handle heavy loads, these bearings have higher load capacities than comparable standard linear ball bearings.
Because they usually do not require lubrication, linear sleeve bearings outperform linear ball bearings in dirty environments.
Ridges on the inside of these bearings wipe away dust and debris as the bearing travels on a shaft.
Thinner than standard linear sleeve bearings, these bearings fit where clearance is a concern.
Made of FDA-listed materials for use in food applications, these bearings also have excellent chemical and corrosion resistance.
These fiberglass bearings are lightweight, nonmagnetic, and won’t conduct electricity.
Ball bearings create less friction than sleeve bearings, so they require less force to operate.
Designed to handle heavy loads, these bearings have higher load capacities than comparable standard linear ball bearings for support rail shafts.
Sleeve bearings outperform ball bearings in dirty environments. Use them for low speed applications.
The Frelon liner on these bearings allows them to stand up to a wider range of chemicals than other flange-mounted linear sleeve bearings.
Choose ball bearings for debris-free environments and when speed is a necessity. They operate with less friction than sleeve bearings, so you can run them at higher speeds.
Designed to handle heavy loads, these bearings have the highest load capacities of any mounted linear ball bearings we offer.
Outdoor as well as mild chemical environments are no problem for these bearings. They have stainless steel balls for corrosion resistance.
Virtually maintenance free, these bearings have slippery, chemical-resistant liners that don't require added lubrication.
Made from a single piece of slippery UHMW plastic, these bearings have no cracks or crevices so they’re easy to clean.
With two bearings mounted in one housing, these sleeve bearings can handle heavier loads than standard mounted linear sleeve bearings.
Designed to handle heavy loads, these bearings have higher load capacities than comparable standard mounted linear ball bearings for support rail shafts.
Mount these bearings on a support rail shaft for applications requiring maximum rigidity.
With two bearings mounted in one housing, these sleeve bearings withstand heavy loads. Use them on round support rail shafts for applications that require maximum rigidity.
Install these ball transfers in a threaded hole or use a nut to secure.
These ball transfers have capacities up to 2,200 lbs.
A double-sealed ball keeps out dirt and debris, and side vents expel contaminants.
Unlike most ball transfers, which have metal balls, these have a plastic outer ball that rolls on stainless steel inner balls, so there's no metal-on-metal contact that could create and release particles into your clean room. They've also been ultrasonically cleaned and then individually bagged to prevent dust contamination.
Transfers recess into the mounting surface for a low profile.
With a ball recessed into the mounting surface, these ball transfers have a low profile. Their double-sealed ball keeps out dirt and debris, and side vents expel contaminants.
Drop-in design makes for easy installation.
These ball transfers have capacities up to 3,300 lbs.
The flange has mounting holes for fastening.
To keep out dirt and debris, these flange-mount ball transfers have a double-sealed ball and side vents that expel contaminants.
A thick rubber cushion underneath these ball transfers absorbs impact and reduces vibration.
A large-diameter rubber ball handles delicate or polished surfaces. The stem spins and the ball rotates around the stem.
Replace worn and damaged bearings or press-fit bearings into tubing or pipe to create a roller.
Sleeve bearings ride directly on the axle and have no moving parts to wear out.
Use these bearings to replace worn and damaged bearings or press-fit them into tubing or pipe to create a roller. All have a hex-shaped axle.
Replace damaged wheels or use multiple wheels to build a custom conveyor.
Create a low-profile conveying surface.
Use on a conveyor pulley with a conveyor belt tensioner to adjust the tension on a conveyor belt.
Add on to an existing screw conveyor or keep it running like new.
With dry-running PTFE sleeve bearings, these rollers don’t require lubricant. They’re also fully submersible, nonsparking, and lightweight.
A slippery PTFE liner reduces wear and eliminates the need for lubrication.
These nylon swivel joints are 80% lighter than steel swivel joints with better corrosion resistance.
A carbon fiber-reinforced insert or PTFE liner reduces wear, handles shock loads, and eliminates the need for lubrication.
With at least 55° of ball swivel, these externally threaded rod ends accommodate greater misalignment than any other we offer.
With at least 55° of ball swivel, these rod ends accommodate greater misalignment than any other internally threaded rod end we offer.
Made of cadmium-plated steel, these externally threaded rod ends generally handle higher loads than stainless steel, aluminum, and nylon rod ends.
Made of cadmium-plated steel, these internally threaded rod ends generally handle higher loads than stainless steel, aluminum, and nylon rod ends.
Seals keep out dirt and an oil-embedded foam insert slowly releases lubricant for a long life.
Made of stainless steel, these externally threaded rod ends provide excellent corrosion resistance.
Made of stainless steel, these internally threaded rod ends provide excellent corrosion resistance.
These anodized aluminum rod ends are lighter than stainless steel rod ends and have good corrosion resistance. Internal threads mate with rod end bolts, threaded rods, and other components with male threads.
These anodized aluminum rod ends are lighter than stainless steel rod ends and have good corrosion resistance.
Made of impact-resistant nylon, these internally threaded rod ends withstand corrosion as well as fuels, lyes, and weak acids. They do not require lubrication and are 80% lighter than steel rod ends.
Made of impact-resistant nylon, these externally threaded rod ends withstand corrosion as well as fuels, lyes, and weak acids. They do not require lubrication and are 80% lighter than steel rod ends.
These externally threaded steel rod ends handle loads that are at least 25% higher than other comparably sized rod ends.
These internally threaded steel rod ends handle loads that are at least 25% higher than other comparably sized rod ends.
These internally threaded rod ends have an innovative body design that keeps the ball from being pushed out when supporting thrust loads.
An innovative body design keeps the ball from being pushed out when supporting thrust loads.
These internally threaded linkages have a slippery PTFE liner that reduces wear and eliminates the need for lubrication.
Use these linkages to create inline pivoting connections. They have internal threads on one end and external threads on the other.
Use these externally threaded linkages to create inline pivoting connections.
In addition to offering superior chemical resistance, these lightweight, fiber-reinforced nylon rod ends also reduce noise and vibration.
Suitable for clean room use, these carriages and guide rails are made entirely of stainless steel.
A plastic cage surrounds the ball bearings and keeps them from colliding, so these carriages run for many cycles without needing maintenance.
Designed for use on horizontal surfaces, the contact angle of the ball bearings on the rail allows these carriages to last longer than other carriages.
Run many cycles in tight spaces before replacing or re-greasing carriages.
With a plastic cage that surrounds the ball bearings to prevent them from colliding, these extra-wide carriages run quietly for many cycles without needing maintenance. All of these carriages have a wide base and low-profile design to stabilize moment (twisting) and off-center loads better than other carriages.
With fewer moving parts and no need for lubrication, sleeve bearing carriages perform better in dusty and wet environments than ball and roller bearing carriages. They're also better at handling impact and vibration.
A floating bearing in these self-aligning carriages adjusts to compensate for misalignment between rails, so your carriages still move in tandem.
A handle on the side of the carriage locks the carriage in place.
Create a self-aligning system that can be locked in place with these carriages and guide rails.
Use these carriages and guide rails in temperatures up to 300° F.
With a wide base, these sleeve bearing carriages stabilize moment (twisting) and off-center loads better than standard carriages. Use in areas where multiple carriages or rails won't fit.
Mate with a T-slotted rail to add linear motion to your assembly.
Threaded inserts secure the bearing to the carriage and prevent it from loosening due to frequent starts and stops.
For applications with low clearance, these carriages protrude less than 5 mm above their rails.
Compensate for rail misalignment in low-clearance applications with these carriages and guide rails.
The square profile prevents loads from twisting and rotating.
Fasten loads on the side of these carriages and add linear motion to a T-slot assembly.
Build loops, circuits, and curved paths in assembly stations and other repetitive processes.
A handle locks these carriages in place on curved paths, loops, and circuits in assembly stations and other repetitive processes.
C-shaped guide rails grip the carriage around the outside to support linear motion along walls and other vertical surfaces.
Create a self-aligning carriage and guide rail system to compensate for mounting surfaces that aren't parallel.
Use these carriages and guide rails for light loads where precise movement is not required.
Nylon rollers provide low-friction movement for light loads and corrosive environments.
Combine with a T-slotted rail to add linear motion to your assembly.
Nylon rollers and aluminum rails make these good for light duty applications.
Create your own positioning table or telescoping slide. Sets include four rails, two roller bearing cages, and eight end stops.
Use these slides in a variety of manual-positioning applications for laboratory and production equipment as well as for positioning parts for drilling, fastening, assembly, and measuring.
A linear scale and micrometer-like hand wheel measure travel distance in increments of 0.001".
Made with Frelon bearings, these slides have over four times the load capacity of standard positioning slides.
Also known as sleeve-bearing turntables or slewing-ring bearings.
Keep garage doors and other overhead doors rolling smoothly.
Mount components to these load-rated bearings and track rollers to add linear motion along T-slotted rails.
Support shafts, bearings, and other moving parts that are routed through a hole. These grommets are slippery to allow parts to move freely in the hole. Install them on thin sheet-metal panels.
Precisely align, level, and adjust spacing on fasteners and shafts with these shims.
Precisely align, level, and adjust spacing on fasteners, shafts, and machinery with these shims, which are color-coded by thickness for easy identification.
Be prepared with ring shims in a variety of thicknesses. These shims are color-coded by thickness for easy identification.
These shims are color-coded by thickness for easy identification. The slot lets you insert, remove, and adjust the shims without disassembling your machinery.
Keep slotted shims in a variety of thicknesses on hand with these sets, which are color-coded by thickness for easy identification. The slot lets you insert, remove, and adjust the shims without disassembling your machinery.
Use these thick shims to align cabinets, doors, and windows, or for other rough leveling.
These shims are scored so you can easily shorten them to the length you need. Designed to fit around screws, they are commonly used in window, door, and cabinet installations.
These shims are color-coded by thickness for easy identification. The horseshoe design fits around screws.
Clips on these shims hold them together when stacked, and they are color coded by thickness for easy identification. Designed to fit around screws, they are commonly used in window, door, and cabinet installations.
Slide these shims behind your door’s hinge to align it in the jamb.
Ridges keep these shims from sliding apart when stacked.
The slot lets you install these rigid shims around screws.
These thick shims are scored to make size adjustments easy—break off the excess shim for a custom fit around fasteners or corners. Use them to align cabinets, doors, and windows, or for other rough leveling.
The textured surface of these thick shims keeps them from sliding apart when stacked. Use them to align cabinets, doors, and windows, or for other rough leveling.
Also known as single-start and self-locking lead screws and nuts, these have a single thread that runs the length of the screw. The nut travels only when the screw turns, so your system won't unexpectedly move when the lead screw is at rest.
Multiple thread channels (also known as thread starts) create faster linear travel than lead screws with a single thread start.
Suitable for use in washdown applications, these plastic collars also offer good chemical resistance.
Replace worn or damaged wheel bearings to keep your equipment rolling.
Guide small objects with precise movements, such as positioning objects in robotics, using these rollers.
These urethane rollers are nonmarring and wear resistant.
A slippery UHMW polyethylene surface means these rollers won't stick to adjacent parts. Rollers are also highly corrosion resistant.
These rollers spin freely in one direction and lock to transmit power in the other. Made of neoprene rubber, they are oil, flame, gasoline, and weather resistant.
These polyurethane rollers are nonmarring and wear resistant.
The surface of these rollers is molded to a tolerance of either ±0.003 in. or ±0.08 mm to provide more consistent surface contact.
These urethane rollers are wear and chemical resistant. They’re also nonmarring.
Mount these rollers directly onto your shaft without the need for set screws or keyways. Made of urethane, they are nonmarring and wear resistant.
The mounting holes on these rollers are tapped directly through the roller’s surface so you can install them with set screws and still fit them into tight spots.
Without any hardwiring, these actuators give you control over your push-pull motion using either a hand or foot switch.
With no external moving parts, these air slides provide a long stroke, but have a static footprint—only the carriage on top moves.
Convenient for use with devices such as grippers and printing heads, these air slides have a nonrotating head that provides steady motion and a large mounting area.
Simplify tasks such as spray painting, repair work, and inspection. These turntables rotate to expose every side of an object while working.
The addition of MDS gives these tubes exceptional wear resistance along with a self-lubricating surface. They're made of cast nylon 6, making them easier to machine and better electrical insulators than other MDS-filled nylon tubes.
A good choice for making sprockets and pulleys, these cast nylon 6 tubes withstand higher temperatures and are easier to machine than standard nylon 6/6 tubes.
Also known as nylon 6/6, this general purpose material is often used for bearings, gears, valve seats, and other high-wear parts.
Delrin® acetal resin, also known as acetal homopolymer, is stronger and stiffer than acetal copolymer.
In addition to a low-friction surface that prevents sticking and binding, this tough material is impact and wear resistant to handle the scuffs, scrapes, and strikes that other plastics can’t.
Because this polypropylene resists swelling when exposed to water, it’s often fabricated into containers and parts for laboratory equipment.
Practically nonabsorbent, HDPE won't swell when exposed to moisture. It is denser and more rigid than LDPE, plus it's more chemical resistant.
Known for its naturally slippery surface, PTFE surpasses most plastics when it comes to chemical resistance and performance in extreme temperatures.
A layer of tin-plated steel adds structural support and makes this PTFE easy to form.
Among the strongest plastic materials we offer, Torlon PAI has a slippery surface that resists wear. Use it to make high-friction compressor parts, bearings, and seals.
This extruded acrylic offers similar performance as cast acrylic at a lower cost.
At only half the weight of glass, polycarbonate maintains excellent impact resistance across a wide temperature range. It's comparable to Lexan, Hyzod, Tuffak, and Makrolon.