Yellow zinc-plated steel is more corrosion resistant than nickel-plated steel.

Nickel-plated steel has some corrosion resistance.

An economical choice for applications in corrosive environments that don't require high load capacities, these mounts have a plastic base.

Made of 303 stainless steel, these metric mounts resist corrosion from water and most chemicals.

Made entirely of 316 stainless steel, these metric mounts have superior corrosion resistance.

Well-suited to damp environments, these mounts have a stainless steel stud and nut for corrosion resistance.

Punch-out holes in the base let you bolt down these mounts to keep your equipment stationary.

An offset mounting hole allows for installation without moving your machine.

Black-oxide steel has a dull shine for areas where appearance is a concern.

An economical choice for applications in corrosive environments that don't require high load capacities, these mounts have a plastic base.

Made of 303 stainless steel, these metric mounts resist corrosion from water and most chemicals.

Well-suited to damp environments, these mounts have a stainless steel nut for excellent corrosion resistance.

Use these mounts on heavy machines and equipment.

A hex nut at the base of the stud allows for easy height adjustment.

Made of 303 stainless steel, these mounts resist corrosion from water and most chemicals.

Able to withstand temperatures up to 350° F, these have the highest maximum temperature of our plastic mounts.

A shield on the stud prevents dirt accumulation on the threads and provides a finished appearance.

Meant for light duty applications, these mounts are not rated for capacity.

All-stainless steel construction stands up to water and chemicals and won't rust or corrode.

Bolt these mounts down to keep your equipment stationary.

A two-piece design requires less clearance than one-piece mounts and simplifies installation—raise your machine just enough to slide the base underneath, then insert the stud from above.

Choose from mounts that support 3,000 to 30,000 lbs. for heavy machinery.

Rated for high load capacity, use these inserts to connect threaded leveling mounts to heavy equipment.

Slip these inserts into tubular legs to quickly add threads for attaching leveling mounts. They’re often used in the legs of light equipment and furniture.

Use screws or bolts to attach the mounting plate on these casters to a flat surface. Adjust the leveling pad to keep your equipment stationary and compensate for uneven floors.

Install these casters into a threaded hole. Adjust the leveling pad to keep your equipment stationary and compensate for uneven floors.

Mount these jacks to equipment to raise and level it.

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.

Level dies, plates, presses, and other machine tools—this shim tape conforms to curves and uneven surfaces.

Cut this stock into custom shapes to fit your application.

This shim stock is color coded by thickness for easy identification. Cut it into custom shapes to fit your application.

Ridges keep these aluminum shims from sliding apart when stacked. Designed for aligning shafts and axles, they support heavier loads than plastic tapered shims.

Easily snap off any excess to get the length you need.

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.

Also known as machinery bushings, these shims have an oversized OD to create a larger bearing surface for reduced wear between moving parts.

These shims are made of layers of metal bonded with adhesive. Remove layers with a utility knife until you get the thickness you need.

Also called tolerance rings, these rings are for use in stamped, molded, or worn housings to form a tight hold on the bearings.

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 ring shims in a variety of thicknesses. These shims are color-coded by thickness for easy identification.

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.

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

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 a single shim on feet or positioning arms that are secured with multiple fasteners. The slots let you insert, remove, and adjust the shims without disassembling your machinery. Also known as finger shims.

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.

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.

Slide onto a shoulder screw to shorten the length of the shoulder.

Spin these tight-fitting shims onto your screw's threads to lengthen the shoulder.