These spacers have excellent corrosion resistance and are passivated for enhanced protection.

Create space to clean between components on food processing lines and other sanitary equipment.

These standoffs are made to NAS specifications.

Mount components onto food processing lines, walls, and sanitary equipment while leaving space to clean in between.

Also known as captive standoffs, a recess under the hex clinches the panel for a strong hold that won't push, pull, or twist out. When mounted, the hex sits flush with the surface and the closed end creates a neat, finished appearance.

With the end clinched in place, the prongs allow you to quickly snap a panel on and off these supports.

Compared to our general purpose washers, these have exaggerated diameters and/or thicknesses. Use them to cover oversized holes, hold heavy fastening loads, or as spacers and levelers.

Use these metric washers to evenly distribute the load under bolt or screw heads and nuts when fastening. They can also act as spacers.

SAE washers generally have a smaller ID and OD than USS washers.

USS washers generally have a larger ID and OD than SAE washers.

Punch a hole to create a custom washer.

Flat and oval head screws sit flush within these metric washers for a neat, finished appearance.

Reinforce holes in soft material to keep them from collapsing around screws.

Clipped to fit where standard washers can't, these won't rotate when you position the flat edge against a flat surface.

With greater diameters and/or thicknesses than general purpose washers, these washers cover oversized holes or act as spacers and levelers. Clipped to fit where standard washers can’t, they won’t rotate when you position the flat edge against a flat surface.

Peel the backing off these washers and stick them onto a surface for easy mounting and assembly.

These washers have smaller outside diameters than standard spring lock washers to fit neatly under socket head cap screws.

Comparable to NORD-LOCK® and Sherex TEC Series washers, these two-piece washers provide more locking power than split, tooth, and spring lock washers. Wedges on the inside lock the two pieces together, and serrations on the exterior grip surfaces to resist loosening from high vibration and shifting.

Compared to standard split lock washers, these are thicker and have larger outside diameters.

Internal teeth dig into the screw head while the smooth outside edge won't snag objects. Use with metric fasteners that have small heads, such as fillister and cheese head screws.

Teeth on the outside edge of the washer bite into the screw head and joint for a tight grip.

Choose these washers for their adherence to strict military standards for material and construction.

The teeth on these washers firmly grip heads of 82° flat head countersunk screws.

Bend one tab against the side of the mounting surface and the other tab against the flats on a bolt or nut to prevent both the fastener and washer from turning and loosening in high-vibration applications, such as a motor mount.

These washers are rated to withstand pressure up to 100 psi.

These curved, flexible washers act like springs to compensate for tolerance variations and uneven surfaces.

Also known as spherical washers, these consist of a male and female washer that, when nested, swivel slightly to compensate for tolerance variations and uneven surfaces.

Commonly called beveled washers, these are tapered to fit inside an I-beam's flange to provide a parallel bearing surface.

In addition to joining male- and female-threaded parts, these adapters can increase or decrease metric thread sizes and change the thread pitch.

The through hole allows you to connect float rods to float valves.

Increase or decrease metric thread size from one male-threaded part to another. Commonly used to connect two differently sized threaded rods, they have a hex-shaped body, so you can tighten them with a standard wrench.

Adapt threaded rods from inch to metric. These adapters connect two male-threaded fasteners, so you can change the gender of a mating part or increase or decrease its thread size. The hex-shaped body fits into the head of a standard wrench.

Twist these adapters onto female metric threads to change pitch or switch thread sizes.

Join two female-threaded parts of various thread types and sizes, while allowing air, liquids, wire, or other thin materials to pass through.

Be prepared with ring shims in a variety of thicknesses. These shims fit around fasteners and shafts to precisely align, level, and adjust spacing.

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.

Adjust spacing between bearings and other components on shafts. These shims are sized to fit the outer rim of a bearing.

Place these shims under sharpened dies to restore their original height and extend their life.

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 slotted shims in a variety of thicknesses. The slot lets you insert, remove, and adjust the shims without disassembling your machinery.

Cut this stock into custom shapes to fit your application.

A durable acrylic adhesive keeps this shim stock from sliding out of place. Cut it into custom shapes to fit your application.

Cut this shim stock into custom shapes to fit your application. Stock is made of layers of material bonded with adhesive; remove layers with a utility knife until you get the thickness you need.

Send us a drawing, and we'll cut your custom shim. Shims are made of layers of metal bonded with adhesive; remove layers with a utility knife until you get the thickness you need.

These washers have exaggerated diameters and/or thicknesses for covering oversized holes or for use as spacers and levelers.

As a screw is tightened, these washers flatten to add tension to the joint and prevent loosening from small amounts of vibration.

With a flexible layer of rubber sandwiched between an oil-embedded bronze bearing and rigid metal shell, these bearings reduce wear and machinery noise.

Mount through the counterbored hole with a socket head cap screw to support and position workpieces and fixtures from the bottom or side.

Support rounded or irregularly shaped workpieces from the bottom or side with minimal contact.

These metal collars are stronger than plastic shaft collars.

Internal ball bearings allow you to slide a collar onto your shaft in one direction and then automatically lock the collar in place in the opposite direction.

Formed to offset the weight of the clamping screw, these collars won't wobble or vibrate when shafts are spinning—even at high speeds.

Customize the bore of these collars to precisely fit your shaft.

Use a wrench to rotate your drive shaft without marring or gouging the shaft.

Make quick adjustments to these shaft collars with a lever on the side.

Tighten the set screw to bite into an unhardened shaft for a secure hold.

Three tapped counterbored holes and three through-holes provide mounting flexibility.

Secure items to either side of these collars—each half has a flat end with a tapped hole

With a nylon insert that grips your threaded shaft or spindle without damaging its threads, these locknuts—also called shaft nuts—hold bearings, bushings, gears, and pulleys prone to vibration tightly in place.

Install these collars anywhere on a shaft without removing components or having access to the ends of the shaft.

Slide these one-piece collars onto the end of your shaft to create an end-stop for linear components.

Install these two-piece collars square shafts.

Install these collars anywhere on a shaft without removing components or having access to the ends of the shaft.

The screw connections on these bushings easily mate to compatible quick-disconnect sprockets and pulleys.

Often used with V-groove wheels or track roller carriages, these off-center bushings create precise mounting clearance.

Made of FDA-listed materials for use in food applications, these bearings also have excellent chemical and corrosion resistance.

The choice for low-friction motion in high-temperature environments.

Ball bearings create less friction than sleeve bearings, so they require less force to operate.