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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.
For applications with frequent starts and stops, the oil in these bearings contains particles of slippery PTFE that lubricate the bearing during startup.
With extra iron and filled with oil containing slippery PTFE, these bearings support heavy loads that frequently start and stop along shafts.
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.
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.
Use where high loads and speeds are not required.
A metal shell adds strength.
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.
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.
These bronze bearings are strong, wear resistant, and excellent at handling shock loads.
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.
With oil for reduced friction and iron for added strength, these bearings handle frequent stops and starts in high-load applications.
Support heavy loads that are often found in bottling and filling lines in food plants—these bearings contain extra iron and FDA-compliant oil. They’re flanged, so they handle loads both parallel and perpendicular to the shaft.
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.
Graphite provides a layer of dry lubrication that operates in high-temperature environments.
These bearings stand up to a wider range of chemicals than other dry-running flanged sleeve bearings.
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.
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.
Handle heavy loads that frequently start and stop along shafts—these bearings contain extra iron and slippery PTFE lubricant. They’re thrust bearings, which means they support loads parallel to the shaft.
The oil in these bearings is NSF registered H1 and FDA compliant for incidental contact with food.
Made of 863 iron-copper and embedded with NSF registered H1 oil, these bearings can tackle high-load applications in food plants, such as bottling and filling lines.
Made from slippery materials, these bearings reduce friction without the oily mess.
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.
Startup friction causes these porous bronze bearings to release a thin layer of oil on the bearing’s surface.
Embedded lubricant particles increase the load capacity of these bearings while also making them slippery.
Made of acetal with a PTFE filling, these light duty bearings handle speeds twice as fast as standard acetal bearings can.
Also known as Trantorque bushings, these tighten with a twist of the collar nut—no screws needed.
Keep these shaft collars in place by tightening their set screw into the shaft.
These metal collars are stronger than plastic shaft collars.
Suitable for use in washdown applications, these plastic collars also offer good chemical resistance.
Installing and removing a collar is as easy as pushing down and lifting up a clamp lever.
Wider than standard shaft collars with twice the number of clamping screws, these ensure a better grip for greater holding power.
Three tapped counterbored holes and three through-holes provide mounting flexibility.
Instead of replacing your shaft or keeping components, such as couplings, with various bore diameters on hand, these reducers adapt the bore of a component to a smaller size.
Set screws bite into your shaft to hold these couplings in place.
Designed to grip evenly around your shaft, clamping couplings provide more holding power than set screw couplings without marring the shaft.
Install and remove these shaft couplings without disconnecting the shafts, motors, and other attached components—they’re made in two pieces so you don’t need to slide them onto shaft ends. They’re also useful when you have limited access to the ends of the shafts.
Each hub includes a set screw (unless noted), which bites into your shaft to hold the coupling in place.
Designed to grip evenly around your shaft, these couplings provide more holding power than set screw couplings without marring the shaft.
Each hub includes a set screw, which bites into your shaft to hold the coupling in place.
Able to handle high twisting forces as well as misalignment, these couplings are good for high-performance servomotor applications.
Connect shafts and ball screws to high-speed servomotors and stepper motors—these shaft couplings handle four times more speed than standard servomotor couplings.
Thinner than standard linear sleeve bearings, these bearings fit where clearance is a concern.
Use these ultra-thin sleeve bearings in high-speed applications where clearance is a concern.
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.
The choice for low-friction motion in high-temperature environments.
The shell, housing, and balls of these bearings are stainless steel for excellent corrosion resistance.
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.