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A metal shell adds strength.
Use where high loads and speeds are not required.
Graphite provides a layer of dry lubrication that can operate in high-temperature environments.
Made of FDA-listed materials or FDA compliant, these bearings are for use in food applications. They also withstand caustic and washdown environments.
Use these bearings in applications with frequent starts and stops because they operate with very little friction.
These bearings stand up to a wider range of chemicals than other dry-running sleeve bearings.
Permanently and securely install these self-clinching bearings into panels, with no need for precision-bored holes or machined mounts.
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.
Even in the presence of harsh chemicals and extreme temperatures, these bearings operate under heavy loads and at high speeds.
These bronze bearings are strong, wear resistant, and excellent at handling shock loads.
A figure-8-shaped groove provides a flow path for lubricant, distributing it evenly along the bearing’s surface.
The addition of iron and aluminum gives these aluminum-bronze bearings high strength and excellent corrosion resistance—making them suitable for use in marine and mining applications.
Grooves on the inside of the bearing provide a flow path for lubricant, distributing it evenly along the bearing’s surface.
Also known as Oilite® bearings.
Increased iron content makes these bearings stronger and more resistant to shock loads than standard oil-embedded bearings; however they operate at lower speeds.
With a flexible layer of rubber sandwiched between an oil-embedded bronze bearing and rigid metal shell, these bearings reduce wear and machinery noise.
Unlike other sleeve bearings, these do not need to be fully inserted into a housing. Their unique shape creates a permanent, secure hold in thin panels.
With extra iron and filled with oil containing slippery PTFE, these bearings support heavy loads that frequently start and stop along shafts.
For applications with frequent starts and stops, the oil in these bearings contains particles of slippery PTFE that lubricate the bearing during startup.
The oil in these bearings is suitable for incidental contact with food.
Embedded with oil that is safe for incidental contact with food, these bearings are suitable for use in high-load applications such as bottling and filling lines in food processing plants. They are also known as Super Oilite® bearings.
With oil for reduced friction and iron for added strength, these bearings handle frequent stops and starts in high-load applications.
Made from slippery materials, these bearings reduce friction without the oily mess.
Use these UHMW bearings in wet, corrosive environments.
These nylon bearings swivel inside their housing to compensate for over 20° of shaft misalignment.
Made of acetal blended with PTFE, these bearings handle speeds twice as fast as standard sleeve bearings.
Capable of handling temperatures from -400° to 750° F, these graphalloy bearings withstand the widest temperature range of any of our mounted bearings.
A reliable classic—these babbitt bearings are strong and corrosion resistant.
With a flexible layer of neoprene sandwiched between an oil-embedded bronze bearing and rigid steel shell, these bearings reduce wear and machinery noise.
Startup friction causes these porous bronze bearings to release a thin layer of oil on the bearing’s surface.
A strong steel housing allows these bearings to handle higher speeds than standard oil-embedded mounted sleeve bearings.
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.
Made of FDA listed PEEK, these bearings are suitable for direct contact with food. The closed backing blocks out dust and other contaminants.
Handling speeds twice as fast as standard mounted sleeve bearings while limiting wear on your system, these bearings are made of PTFE-filled acetal.
Capable of handling temperatures from -400° to 750° F, these graphalloy bearings have the widest temperature range of any of our mounted bearings.
With no moving parts, sleeve bearings are better for dirty environments than ball and roller bearings.
Choose the ID, OD, and length you need.
Larger OD tolerances than standard press-fit bushings allow for finishing. Bushings should be machine ground.
Also known as jig bushings, these metric drill bushings fit inside fixture plate holes to guide drill bits, counterbores, reamers, and other cutting tools. They improve accuracy so that your drilled holes and cuts are consistent from part to part.
These bushings are made of stainless steel, which provides excellent corrosion resistance.
Made of durable tungsten carbide, these bushings outlast steel.
Even under extreme drilling pressure, these metric bushings won't press through your jig plate. A flanged head on the top of the bushing acts as a stop, preventing it from moving as you push down your drill bit, reamer, or other cutting bit.
The head prevents these bushings from being pushed through the jig when drilling pressure is extreme. The head sits above the jig plate or can be mounted flush by installing in a counterbored hole.
Avoid wear caused by repeatedly pressing bushings into your jig fixture. Instead, press fit these sleeves into the fixture one time, and then swap bushings with different IDs in and out to change the size of your bit.
Replace worn bushings and quickly change IDs without needing to repeatedly use a lever press. Instead of pressing bushings in and out of your jig fixture, which can cause damage, these bushings slide in and out of sleeves.
The raised flange on these sleeves fits into the notch on removable drill bushings.
The knurls resist force and provide better holding strength than serrations. Encase in plastic tooling.
Insert these bushings into a drilled hole and twist the lock ring to secure. Reusable and easy to replace, they are held in in place by a separate locking part.
The serrations grip to prevent rotation and spin out. Press or encase into plastic tooling.
The serrations at the top of the bushing grip to prevent rotation and spin out.
Because they usually do not require lubrication, linear sleeve bearings outperform linear ball bearings in dirty environments.
Made of FDA-listed materials for use in food applications, these bearings also have excellent chemical and corrosion resistance.
Use these ultra-thin sleeve bearings in high-speed applications where clearance is a concern.
Thinner than standard linear sleeve bearings, these bearings fit where clearance is a concern.
A ceramic liner makes high speeds as well as rapid acceleration and deceleration possible.
Ridges on the inside of these bearings wipe away dust and debris as the bearing travels on a shaft.
These fiberglass bearings are lightweight, nonmagnetic, and won’t conduct electricity.
Sleeve bearings outperform ball bearings in dirty environments. Use them for low speed applications.
These bearings have a ceramic liner to help them achieve high speeds as well as rapid acceleration and deceleration.
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.
A ceramic coating makes high speeds as well as rapid acceleration and deceleration possible.
With two bearings mounted in one housing, these sleeve bearings can handle heavier loads than standard mounted linear sleeve bearings.
With two bearings mounted in a single housing, these bearings have load capacities more than 10 times as high as standard mounted linear sleeve bearings. A ceramic liner helps them achieve high speeds as well as rapid acceleration and deceleration.
The Frelon liner on these bearings allows them to stand up to a wider range of chemicals than other flange-mounted linear sleeve bearings.
With two bearings mounted in a single housing, these bearings have higher load capacities than standard ones. A ceramic liner helps them achieve high speeds as well as rapid acceleration and deceleration.
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.
Also known as speedi sleeves, use these to repair and protect worn shafts for a smooth sealing surface without machining.
Also known as arbor spacers, these are notched to space components on a keyed shaft.
Precisely shaped to fit snugly on keyed shafts, these shims align, level, and space components. Because of their tight fit, they also help components rotate in unison with the shaft.
Be prepared with shims in a variety of thicknesses. Also known as arbor spacers, these shims are notched to fit over keyed shafts.
These shims are shaped to fit over D-profile shafts. Use them to precisely align, level, and adjust spacing.
Be prepared with shims in a variety of thicknesses. These shims are shaped to fit over D-profile shafts. Use them to precisely align, level, and adjust spacing.
Mate with a T-slotted rail to add linear motion to your assembly.
Fasten loads on the side of these carriages and add linear motion to a T-slot assembly.
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.
Threaded inserts secure the bearing to the carriage and prevent it from loosening due to frequent starts and stops.
A handle on the side of the carriage locks the carriage in place.
Build loops, circuits, and curved paths 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.
A handle locks these carriages in place on curved paths, loops, and circuits in assembly stations and other repetitive processes.
For applications with low clearance, these carriages protrude less than 5 mm above their rails.
The square profile prevents loads from twisting and rotating.
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.
Use these carriages and guide rails in temperatures up to 300° F.
A floating bearing in these self-aligning carriages adjusts to compensate for misalignment between rails, so your carriages still move in tandem.
Create a self-aligning system that can be locked in place with these carriages and guide rails.
Combine with a T-slotted rail to add linear motion to your assembly.