Install these bumpers with screws. Often used as feet, spacers, and vibration dampers, they absorb shock to prevent damage to equipment and surfaces.

Twist these bumpers into a threaded hole. Often used as feet, spacers, and vibration dampers, they absorb shock to prevent damage to equipment and surfaces.

All of these bumpers are reinforced with a steel core for strength. Often used as feet, spacers, and vibration dampers, they absorb shock to prevent damage to equipment and surfaces. They're also good for starting and stopping motion on automated machines. Twist them into a threaded hole.

Press these bumpers into place with the adhesive backing. Use them as feet and spacers on instruments and small appliances to limit sliding, vibration, and noise. They're comparable to Bumpon bumpers.

Select these bumpers for applications that require specific load capacities. Use them as feet and spacers on instruments and small appliances to limit sliding, vibration, and noise. Press them into place with the adhesive backing. They're comparable to Bumpon bumpers.

The stem on these bumpers compresses to fit into tight holes. Push the stem into a hole for quick installation. These bumpers are commonly used as feet on instruments and bench-top equipment to keep them from sliding. They're also good as spacers between sheets of material. Also known as stem and grommet bumpers.

Mount these bumpers on a threaded stud. All are reinforced with a steel core or base plate for strength. Often used as feet, spacers, and vibration dampers, they absorb shock to prevent damage to equipment and surfaces. They're also good for starting and stopping motion on automated machines.

These bumpers withstand temperatures up to 300° F, which is at least twice as high as our other load rated bumpers. Use them in applications that require specific load capacities. All are reinforced with a base plate for strength. Often used as feet, spacers, and vibration dampers, these bumpers absorb shock to prevent damage to equipment and surfaces. They're also good for starting and stopping motion on automated machines and conveyors. Mount them on a threaded stud.

A magnetic base makes it easy to attach, move, and replace these bumpers on metal surfaces. Use them for guarding, aligning, and positioning parts.

Install these stops in wood or concrete floors to protect walls from large doors in warehouses and manufacturing areas.

A metal core adds strength and stability, making this trim more durable than standard rubber trim. Made of rubber, it resists abrasion better than plastic trim. Use it to protect the edges of panels, boards, signs, and mirrors from impact.

A metal core adds strength and stability, making this trim more durable than other high-temperature rubber trim. It withstands temperatures up to 400° F, which is generally twice as high as our standard rubber trim. Use it to protect the edges of panels, boards, and signs from impact. Made of rubber, it resists abrasion better than plastic trim.

With a surface resistivity of 1.4 ohms, this trim safeguards equipment from static electricity by diverting electrostatic charges quickly. Made of rubber, it resists abrasion better than plastic trim. Use it to protect the edges of electronics equipment and circuit boards from impact.

This trim withstands temperatures up to 450° F—more than twice as high as other foam trim. Designed to cushion during impact, it protects equipment and surfaces from damage.

These natural rubber sheets and strips will stretch up to six times their length. Use them in dynamic applications, such as vibration isolators and shock mounts.

Use in food-processing environments for cutting surfaces, liners, and other high-wear applications. These sheets and strips are FDA compliant for direct contact with food.

Use these polyurethane balls as seals in pumps and check valves or let them bounce inside of vibrating sifters for an effective screen cleaner. They are made of polyurethane, which combines the shock absorbing qualities of rubber with the strength of plastic.

FDA compliant for direct contact with food, these balls are often used to clean screens in vibrating sifters in food, beverage, and other sanitary environments. You can also use them as seals in pumps and check valves.

The thin profile seals narrow spaces such as channels and seams. Natural rubber will stretch up to six times its length.

Greater strength than standard High-Temperature Silicone translates into better shock-absorbing qualities and longer life.

Made from FDA-listed materials for use with food and beverage, these rods fit into channels and other narrow spaces for sealing and cushioning.

Made from FDA-listed materials for use with food.

Let these balls bounce inside of vibrating sifters for an effective screen cleaner or use them as seals in pumps and check valves.

With greater strength than standard Weather-Resistant EPDM, these sheets and strips provide better shock-absorbing qualities and longer life.

For every 1/16" of thickness, there is one layer of super-strong fiberglass cloth that stands up to high stress and flex. Use these sheets as flange gaskets and anywhere heavy compression would squeeze nonreinforced EPDM out of place.

Because these sheets and strips are made from peroxide-cured Buna-N rubber, they have better heat resistance than standard Oil-Resistant Buna-N rubber sheets and strips.

The addition of vinyl make these sheets the strongest Food-Grade Oil-Resistant rubber we offer. Use them for high-tension applications, such as belting. They’re made from FDA-listed materials for use with food and offer good resistance to animal and vegetable oils.

Greater tensile strength than standard Food-Grade Oil-Resistant Buna-N rubber gives these sheets and strips better shock-absorbing qualities and longer life. They’re made from FDA-listed materials for use with food and beverage and offer good resistance to animal and vegetable oils.

Applications for these tubes include jackets, seals, and insulation.

Temperatures as low as –70° F have no effect on these fluorosilicone sheet.

Higher deflection ratings translate to greater vibration and shock isolation than our other vibration-damping leveling mounts.

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.

Thread these mounts into machinery to level them on uneven floors in sanitary environments such as food-processing areas.

Made of zinc-plated steel, these metric leveling mounts are more corrosion resistant than nickel-plated steel leveling mounts.

Nickel-plated steel has some corrosion resistance.

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

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

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

Nickel-plated steel has some corrosion resistance.

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

Cover the bottom of furniture legs.

Made of neoprene rubber, these feet are a good choice for use in oily environments.

An interlocking steel frame in these mounts prevents collapse, even if the rubber fails.

Connect these mounts to your air supply for vibration and shock isolation in compression load applications.

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

Made of neoprene rubber, these mounts are oil resistant, so they're good for use under generators, HVAC equipment, electric motors, pumps, and blowers.

A two-piece design makes these mounts easier to install than one-piece mounts.

A two-piece design makes these mounts easier to install than one-piece mounts.

Specifically designed for light vertical loads, these mounts buckle to protect lightweight equipment such as small fans and pumps from vibration.

Able to shoulder up to 1,500 psi per mounting point, nitrile pads can support heavy machinery.

Made of nitrile rubber, these pads have excellent resistance to oil and solvents.

Made of fiber-reinforced PVC, these pads endure exposure to corrosive chemicals, such as cleaning solvents, chlorine, and hydrochloric acid.

Shield surfaces from impact, reduce vibration and noise, and stabilize connection points with these packs of pads—they’re reinforced with fabric to endure extreme compression without deforming. They’re also known as bearing pads.

Reinforced with fabric so extreme compression won’t deform them, these pads protect surfaces from impact, dampen vibration and noise, and act as stable connection points. They’re commonly known as bearing pads.

In addition to having a wider temperature range than our other vibration-damping bushings, these have excellent weather resistance.

In addition to having a wider temperature range than our other ribbed vibration-damping bushings, these have excellent weather resistance.

Use these in place of normal washers to damp vibration and cushion your joint.

In addition to having a wider temperature range than our other vibration-damping washers, these have excellent weather resistance.

Ribbed grommets are more flexible than our smooth vibration-damping grommets, so they're easier to install.

Even after extended compression, these high-performance polyurethane foam sheets and strips bounce back to shape faster than any other foam we offer. Also known as Poron urethane, they also stand up to wear caused by rubbing and scraping.