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These steel ball bearings handle higher loads than stainless steel and plastic bearings.
A solid polymer lubricant surrounds the balls, eliminating the need for additional lubrication. Because it's solid, the lubricant blocks out water and dust, extending the life of the bearing.
Bearings are 440C stainless steel for good corrosion resistance.
A solid polymer lubricant surrounds the balls, eliminating the need for additional lubrication. Bearings are 440C stainless steel.
Made to tight tolerances, these 440C stainless steel bearings combine speed and accuracy with corrosion resistance.
Good for applications with incidental food contact, these 440C stainless steel bearings have a food-grade, solid polymer lubricant between the balls and race that eliminates the need for additional lubrication.
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.
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.
No need to worry about precisely aligning these bearings—they swivel to compensate for up to 5° of shaft misalignment.
When speed and accuracy matter most, opt for these bearings. They’re made to tighter tolerances than standard flanged ball bearings.
Made with either PEEK or graphite, these ball bearings work in applications that are too hot for most other 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.
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.
Also known as Oilite® bearings.
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.
These bearings stand up to a wider range of chemicals than other dry-running sleeve bearings.
These bronze bearings are strong, wear resistant, and excellent at handling shock loads.
Designed with a thin, compact housing, these bearings are good for space-constrained applications.
Use these bearings for light loads and small shafts. The closed backing blocks out dust and other contaminants.
Use these nylon or acetal bearings for light loads. The closed backing blocks out dust and other contaminants.
Made of FDA listed PEEK, these bearings are suitable for direct contact with food. The closed backing blocks out dust and other contaminants.
These roller bearings handle extremely high speeds for their small size.
The choice for low-friction motion in high-temperature environments.
Also known as rod‐end bearings, ball joint rod ends have an eyelet and a ball that swivels to support angular misalignment.
These internally threaded rod ends have an eyelet and a ball that swivels to support angular misalignment. Also known as rod-end bearings.
Made to extremely tight tolerances, these internally threaded rod ends are for applications that require positioning accuracy, such as accelerators and other types of control linkages.
Made to extremely tight tolerances, these externally threaded rod ends are for applications that require positioning accuracy, such as accelerators and other types of control linkages.
Made of stainless steel, these externally threaded rod ends provide excellent corrosion resistance.
These rod end bolts are good for wet and corrosive environments—for maximum mounting flexibility, cut the fully threaded shaft to whatever length you need.
Larger OD tolerances than standard press-fit bushings allow for finishing. Bushings should be machine ground.
Made of durable tungsten carbide, these bushings outlast steel.
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.
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 serrations grip to prevent rotation and spin out. Press or encase into plastic tooling.
The knurls resist force and provide better holding strength than serrations. Encase in plastic tooling.
The serrations at the top of the bushing grip to prevent rotation and spin out.
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.
Precisely align, level, and adjust spacing on fasteners and shafts with these shims.
For a snug fit around a shaft, the ID of these shims is held to a tighter tolerance than other round shims.
Slide these shims under the screw head to shorten the shoulder length.
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.
Often used with V-groove wheels or track roller carriages, these off-center bushings create precise mounting clearance.
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.
This extruded acrylic offers similar performance as cast acrylic at a lower cost.
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.