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These nonslip bumpers protect equipment while minimizing the movement of objects that come in contact, making them good for positioning and robotic-gripping applications. Install them with adhesives or screws.
Install these bumpers with screws. 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 an embedded washer 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. Install them with screws.
These bumpers are at a 90° angle to protect corners on equipment, walls, and docks from damage caused by carts, vehicles, and other moving objects. Install them with screws.
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.
Make bumpers the size and shape you need. 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.
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.
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.
Select these bumpers for applications that require specific load capacities. All are reinforced with a 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 and conveyors. Twist these bumpers into a threaded hole.
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.
These bumpers withstand temperatures up to 300° F, which is 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. Twist them into a threaded hole.
A ridge on the stem provides a tighter grip than other push-in bumpers. 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.
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.
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.
Select these bumpers for applications that require specific load capacities. All are reinforced with a 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 and conveyors. Mount these bumpers on a threaded stud.
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.
Keep bumpers of various shapes, materials, and mounting styles on hand to solve whatever problems arise.
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 with a few taps of a hammer. In addition to protecting soft materials such as wood, fiberboard, and plastic, these bumpers are commonly used on table and chair legs to safeguard floors.
Keep sliding doors and panels from damaging walls and door frames.
These stops have a metal stem and base for strength and durability. Use them to protect walls from doors in high-traffic applications.
Simply screw these bumpers into baseboards with the attached self-tapping wood screw to prevent doors from damaging walls.
Install these stops in wood or concrete floors to protect walls from large doors in warehouses and manufacturing areas.
The half-dome shape won't catch mops and scrubbers. Install these stops in wood or concrete floors.
With a split design, you can easily place these bumpers on tubing, rods, machinery legs, control shafts, and levers to protect them from impact, dents, and scratches. Use the concealed screw to secure them in place.
Made of rubber, this trim resists abrasion better than plastic trim. Often used on panels, boards, signs, and mirrors, it protects edges from impact.
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.
Sample multiple sizes and styles of rubber trim.
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.
This trim withstands temperatures up to 450° 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.
Guard the edges of panels, signs, glass, and other surfaces in food plants from frequent bumps and scrapes. This trim is FDA compliant, so it’s safe to directly touch food.
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.
Black and yellow stripes create a visual alert to draw attention to equipment and obstructions. Designed to cushion during impact, this foam trim protects edges on posts, shelving, and other surfaces from damage.
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.
Even in the dark, this black and yellow striped trim draws attention to equipment and obstructions. Designed to cushion during impact, it protects edges on posts, shelving, and other surfaces from damage.
Push these flexible grommets into place to protect wire, cable, and cords by turning rough-edged and uneven holes into smooth, insulated holes. Commonly used in metal panels, they also damp vibration.
Cut the thin layer of rubber in the center of these grommets to create custom IDs to securely hold and protect wire, cable, and cords. Push these grommets into place. They turn rough-edged and uneven holes into smooth, insulated holes. Commonly used in metal panels, they also damp vibration. Also known as webbed grommets.
Keep grommets of various sizes on hand to solve whatever problems arise.
These flexible grommets withstand temperatures of 450° F or greater, which is approximately twice as high as our standard grommets. Push them into place to protect wire, cable, and cords by turning rough-edged and uneven holes into smooth, insulated holes. Commonly used in metal panels, they also damp vibration.
Squeeze these flexible grommets to open the center flap—once wire, cable, and cords pass through, the flap closes tightly for dust and debris protection as well as a finished look. Use them to eliminate cord clutter on desktops, countertops, benchtops, and other work surfaces.
Create a tight seal around wire, cable, and cords with these grommets to keep out dust, debris, and moisture.
Snap these grommets into place to hold wire, cable, and cords in wet locations and form a seal against dust, debris, and water.
Create a sanitary seal on through-wall piping, tubing, and cables in food-, cosmetic-, and pharmaceutical-processing areas.
Rated IP68, these grommets form liquid-tight seals around wire, cable, and cords to protect them against dust as well as submersion in a maximum of one meter of water.
Cut the center of these grommets with a utility knife to create custom IDs. The two‐piece design makes it easy to install and seal these grommets around wire, cable, and cords that are already in place. Use them to keep out dust, debris, and moisture.
The two‐piece design makes it easy to install and seal these grommets around wire, cable, and cords that are already in place. Use them to keep out dust, debris, and moisture.
Press these flexible grommets into holes and their tapered inner wall will expand when pipe or tubing is inserted to hold them snugly in place. They're often used for routing applications on metal, plastic, and fiberglass tanks.
Commonly used for tires, conveyor belts, and chutes, SBR (styrene butadiene rubber) is harder and offers better abrasion resistance than natural rubber.
This polyurethane combines the shock absorbing qualities of rubber with the tear resistance of plastic. Use it for high-tension applications such as conveyor belts, as well as for high-wear applications such as cutting surfaces, bumpers, and liners.
Even after repetitive compression, these super-soft sheets and strips maintain their cushioning ability. Use them to dampen noise and isolate vibration.
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.
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.
With one layer of polyester fabric for every 1/16” of thickness, these sheets and strips maintain their size and shape under heavy compression better than the nonreinforced abrasion-resistant SBR.
With a thin metal backing, these sheets are good for use in bumpers, wear pads, machinery mounts, and other applications where some structural support is needed.
Use these tubes as jackets, seals, and insulation in areas where rubbing and scraping could cause wear on rubber. They are made of polyurethane, which combines the shock-absorbing qualities of rubber with the tear resistance of plastic.
The thin profile seals narrow spaces such as channels and seams. Natural rubber will stretch up to six times its length.
Stronger than natural rubber, these polyurethane rods combine the shock-absorbing qualities of rubber with the tear resistance of plastic. Use them to seal narrow spaces such as channels.
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.
Safely use these balls in food and pharmaceutical environments to clean screens in vibrating sifters or to act as a seal in pumps and check valves.
Neoprene is also known as chloroprene. It offers good oil and abrasion resistance.
This rubber has better shock absorbing qualities and will provide longer life than Standard Multipurpose Neoprene.
Stronger and more durable than High-Strength Multipurpose Neoprene, this rubber can handle high-tension applications such as belting.
While other black rubber can leave a mark after use, these specially formulated neoprene sheets leave no evidence behind.
Made from FDA-listed materials for use with food.
This neoprene dissipates static electrical charge, which can damage or cause equipment to malfunction.
Meeting transportation industry standards for flames, smoke, and toxicity, these neoprene sheets and strips are used as cushioning pads in panels to reduce vibration and noise.
With one layer of nylon fabric for every 1/16” of thickness, these sheets have the strength to be used as flange gaskets, diaphragm packing, and anywhere heavy compression would squeeze nonreinforced neoprene out of place.
These sheets and strips have one layer of cotton/polyester fabric for every 1/16" of thickness, so they maintain their size and shape under heavy compression better than the standard nonreinforced multipurpose neoprene. Use them as gaskets.
For every 1/4" 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, diaphragm packing, and anywhere heavy compression would squeeze nonreinforced neoprene out of place.
Jackets, seals, and insulation are just a few of the many uses for rubber tubes.
Let these balls bounce inside of vibrating sifters for an effective screen cleaner or use them as seals in pumps and check valves.
Loosen fine particles from the grip of vibrating-sifter screens with the bounce of rubber balls. Also use them as seals in pumps and check valves. They’re made from FDA-listed materials for use with food and beverage.
The cylindrical shape fits into channels and other narrow spaces for sealing and cushioning.
Greater strength than standard High-Temperature Silicone translates into better shock-absorbing qualities and longer life.
These platinum-cured silicone rubber sheets and strips meet the strict purity standards of USP Class VI.
Made of FDA-listed materials, these sheets and strips are for use with food.
Create a barrier against fire and smoke. These sheets and strips meet FAR 25.856 and UL 94 V-0 for flame retardance.
Filled with carbon black, these sheets won’t generate static charges and divert existing ones away from electronics. Use them as a conductor to protect components from static discharge.
Commonly used in electronics applications, these sheets transfer heat better than any other silicone we offer.
One layer of fiberglass cloth is inserted between two layers of silicone rubber to give these sheets and strips the strength to stand up to high stress and flex. Use them as flange gaskets and anywhere heavy compression would squeeze nonreinforced silicone rubber out of place.
The open top allows U-channels to slide over an edge. Use them as seals and trim.
Seal and cushion corners with these 90° angles.
FDA compliant and NSF/ANSI 51 certified, these 90° angles are approved for direct contact with food.
These 90° angles meet UL 94V0 for flame retardance.
With nearly twice the tensile strength of standard high-temperature silicone, these 90° angles absorb shock better and last longer.
Seal and cushion narrow spaces such as channels.
Stronger than standard high-temperature silicone rods, these rods are longer lasting and more shock absorbent.
FDA compliant for use with food and beverage, these rods fit into channels and other narrow spaces for sealing and cushioning.
Meeting UL 94 V-0, these rods are flame retardant—use them to seal and cushion narrow spaces.
Use these balls as seals in pumps and check valves, or let them bounce inside of vibrating sifters as an effective screen cleaner.
These tubes are often used as jackets, seals, and insulation in hot environments.
With greater strength than standard Weather-Resistant EPDM, these sheets and strips provide better shock-absorbing qualities and longer life.
Sunlight, ozone, and water won’t affect these sheets and strips.
A cross between plastic and rubber, Santoprene offers good resistance to weather and chemicals while retaining its stretchability.
These EPDM sheets and strips meet transportation industry standards for flammability, smoke, and toxicity. Use them as weather-resistant seals on windows and doors, pads to reduce vibration between panels, and exterior trim.
Made from FDA-listed materials for use with food and beverage, these EPDM sheets and strips can be used in steamy environments.
Often used as inner tubes, butyl rubber won’t allow air, fumes, or gases to pass through.
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 and strips as flange gaskets and anywhere heavy compression would squeeze nonreinforced EPDM out of place.
Used to seal narrow spaces such as channels, these tubes offer more compression than solid EPDM rods.
Resistant to sunlight, ozone, and water, these rods are sized to seal narrow spaces such as channels.
Seal channels and other narrow spaces with these Santoprene rods.
Resistant to sunlight, ozone, and water, these 90° angles are good for sealing and cushioning corners.
Buna-N rubber resists fuel oil, hydraulic oil, ethylene glycol, and grease.
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 Industry 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.
These sheets and strips offer better shock-absorbing qualities and longer life than standard Oil-Resistant Buna-N.
With the greatest tensile strength of all our oil-resistant rubber, these super-strong Buna-N sheets and strips can handle high-tension applications, such as belting.
Made from FDA-compliant materials for use with food and beverage, these sheets and strips won’t degrade from animal and vegetable oils.
To maintain their size and shape under heavy compression, these sheets have one layer of nylon fabric for every 1/16” of thickness. Use them as flange gaskets and diaphragm packing.
Applications for these tubes include jackets, seals, and insulation.
Use these balls as seals in pumps and check valves or let them bounce inside of vibrating sifters for an effective screen cleaner.
Seal and cushion narrow spaces, such as inside channels and seams.
Viton® fluoroelastomer stands up to tough chemicals, such as nitric acid, ethylene glycol, and isopropyl alcohol.
Temperatures as low as –70° F have no effect on these fluorosilicone sheets and strips.
Even when temperatures rise to 445° F, these Kalrez sheets are resistant to virtually all classes of chemicals.
Offering higher tensile strength than standard Chemical-Resistant Viton® Fluoroelastomer, these sheets and strips provide greater tear resistance and longer life.
With equal chemical resistance to Viton® fluoroelastomer, Aflas provides a stronger, steam-tolerant alternative.
Resistant to the chemicals that are commonly used to clean and sterilize food-processing equipment, these sheets and strips are made from FDA-listed materials for use with food and beverage.
Clean screens in vibrating sifters with the bounce of these balls, or use them as seals in pumps and check valves.
Use these small-diameter rods to seal narrow spaces.
These small-diameter rods provide a seal in narrow spaces.
Place pads under equipment, such as drill presses, milling machines, saws, and air-conditioning units to minimize vibration and noise transmitted to and from machinery.
Able to shoulder up to 1,500 psi per mounting point, nitrile pads can support heavy machinery.
Great for use outdoors, these durable pads are neoprene rubber, which withstands exposure to direct sunlight.
Made of nitrile rubber, these pads have excellent resistance to oil and solvents.
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.
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.
These soft pads work well for isolating vibration with light loads such as lab and testing equipment.
An economical choice for applications in corrosive environments that don't require high load capacities, these mounts have a plastic base.
Nickel-plated steel has some corrosion resistance.
Black-oxide steel has a dull shine for areas where appearance is a concern.
Yellow zinc-plated steel is more corrosion resistant than nickel-plated steel.
Made of yellow zinc-plated steel, these metric leveling mounts are more corrosion resistant than nickel-plated steel leveling mounts.
Made of 303/304 stainless steel, these mounts resist corrosion from water and most chemicals.
Made of 303 stainless steel, these metric mounts resist corrosion from water and most chemicals.
Punch-out holes in the base let you bolt down these mounts to keep your equipment stationary.
Punch-out holes in the base let you bolt down these metric mounts to keep your equipment stationary.
Well-suited to damp environments, these metric mounts have a stainless steel stud and nut for corrosion resistance.
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.
Made of 303 stainless steel, these mounts resist corrosion from water and most chemicals.
Well-suited to damp environments, these mounts have a stainless steel nut for excellent corrosion resistance.
Designed for use in sanitary and food processing areas, these mounts level tanks and machinery on uneven floors and create space to clean underneath.
Adjust the swivels on these mounts to level equipment on uneven surfaces for protection during earthquakes.
The polyurethane base on these mounts resists solvents, gasoline, and oil, while the metal plate sustains heavy loads.
Well-suited to moist environments, these mounts have a stainless steel plate for excellent corrosion resistance.
Made of nitrile rubber, these mounts are oil resistant for use in compression load applications with punch presses, milling machines, grinders, and air compressors.
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.
Limit damage during moderate earthquakes.
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.
These mounts withstand exposure to weather and resist oil, antifreeze, and other petroleum-based fluids.
Specifically designed for light vertical loads, these mounts buckle to protect lightweight equipment such as small fans and pumps from vibration.
Designed for tight spaces such as inside machinery, these mounts fit into a cutout, so they so they have a low top profile.
Peel back the film to stick these feet to the bottom of furniture and equipment legs.
Cover the bottom of furniture legs.
Great for use outdoors, these feet are EPDM rubber, which withstands exposure to direct sunlight.
Made of neoprene rubber, these feet are a good choice for use in oily environments.
Place these feet under furniture and equipment.
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.
In addition to having a wider temperature range than our other vibration-damping bushings, these have excellent weather resistance.
Ribbed bushings are more flexible than our smooth vibration-damping bushings, so they're easier to install.
In addition to having a wider temperature range than our other ribbed vibration-damping bushings, these have excellent weather resistance.
In addition to having a wider temperature range than our other ribbed vibration-damping grommets, these have excellent weather resistance.
In addition to having a wider temperature range than our other vibration-damping grommets, these have excellent weather resistance.
Bolt these mounts down to keep your equipment stationary.
All-stainless steel construction stands up to water and chemicals and won't rust or corrode.
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.
A two-piece design simplifies installation and requires less clearance than one-piece mounts.
Choose from mounts that support 3,000 to 30,000 lbs. for heavy machinery.
In addition to having good resistance to water, sunlight, and oxidation, these neoprene foam sheets and strips resist swelling when they come into contact with oil.
Made of a blend of neoprene and EDPM, these foam sheets and strips resist water, sunlight, and oxidation.
Just like the material found in wetsuits, these neoprene foam sheets are encased in nylon fabric for additional protection from wear caused by rubbing and abrasion.
Because this natural rubber foam readily bounces back to shape after compression, it’s a good choice for repetitive sealing applications, such as on doors.
The original mouse pad material. These natural foam rubber sheets have a crisscross-textured skin on one side for a nonslip gripping surface and a layer of polyester fabric on the other side that allows objects to smoothly slide across it.
EPDM is blended with neoprene and SBR to create a general-purpose foam that offers good resistance to water and wear.
Made of EPDM foam, these sheets and strips have the best resistance to water, sunlight, and oxidation of all the foam we offer.
These vinyl foam sheets and strips are so conformable that once they're compressed they won't fully spring back. Use them to fill gaps and seal uneven surfaces.
Neoprene is blended with EPDM and polyethylene for foam tubes that offer good resistance to water, sunlight, and oxidation.
These EPDM foam tubes have the best resistance to water, sunlight, and oxidation of all the foam tubes we offer.
Made of EPDM, this foam has the best resistance to water, sunlight, and oxidation of all the foam we offer.
An economical alternative to neoprene foam, these Santoprene foam cords stand up to water, sunlight, and oxidation but lack oil resistance.
These neoprene foam cords stand up to water, sunlight, and oxidation, plus they resist swelling when they come into contact with oil.
Durable enough to be used in seat cushions, this flexible polyurethane foam provides gentle cushioning support.
These dual-material foam sheets and strips have ultra-soft polyurethane foam on one side and chemical-resistant polyethylene foam on the other. They are widely used in packaging applications to absorb shock and damp vibration.
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.
When these sheets and strips are exposed to flames, the surface chars to create a protective barrier that prevents melting, dripping, and the possibility of spreading fire.
Commonly called memory foam and Confor, these sheets and strips have the best cushioning qualities of all the foam we offer.
Often used for impact pads, gaskets, and enclosure seals, these polyurethane foam sheets and strips absorb shock better than other resilient foam.
Good for tough vacuum-sealing and low closure-force applications, these polyurethane foam sheets and strips have open/closed cells to keep water, air, and gases from being absorbed when they are compressed at least 25%. Even after extended compression, all bounce back to shape faster than other foams we offer.
Also known as Ethafoam.
These sheets and strips are made of cross-linked polyethylene, so they are stronger and more chemical resistant than other types of polyethylene foam.
Made of FDA-listed materials, these polyethylene foam sheets are often used as packaging for food products to absorb shock and damp vibration.
Often used as padding in helmets, gloves, and boots, this super-strong EVA foam absorbs shock and resists tearing better than other types of foam.
Exceptionally strong, this lightweight ionomer foam offers excellent resistance to impact, UV light, and water. It stands up to wear caused by rubbing and scraping and is often used on bumpers and buoys.
Use these flexible polyurethane foam cords and circles to cushion narrow spaces, such as channels and gaps.
The open top allows these foam U-channels to slide over and cushion an edge.
Use these foam half rounds as a cushioning bumper.
There are hundreds of cushioning pillows in every foot of these pliable mesh sheets. They're often used as a protective liner in drawers and cabinets and anywhere a nonskid surface is required.
Also called plucking foam, these scored foam sheets allow you to pull out individual cubes for custom-shaped packaging.
Silicone maintains its flexibility across a wide range of temperatures.
These sheets and strips will bounce back to shape, even after extended compression.
This premium silicone is the most resilient foam we offer. It is equivalent to Cohrlastic and is also known as Norseal and silicone sponge.
One layer of fiberglass fabric is sandwiched between layers of silicone foam giving these strips strength to handle high-stress applications, such as gasketing.
Even after extended compression, these sheets and strips will bounce back to shape.
A thin layer of aluminized fiberglass on this silicone foam reflects heat to protect sensitive equipment.
Prevent the spread of flames with these self-extinguishing silicone foam sheets and strips.
Even after exposure to sunlight, rain, and snow, these silicone foam strips remain flexible.
Seal and damp vibration around high-temperature food-service equipment with these silicone foam sheets and strips.
Protect sensitive equipment from heat buildup with this silicone foam. These sheets are commonly used to fill gaps and damp vibration in computers, battery installations, and pipe assemblies.
In addition to being lighter in weight than silicone foam, this polyimide foam also remains soft and conformable across a broader temperature range.
Seal and damp vibration in high-temperature equipment with these rings.
These silicone foam cords meet NSF/ANSI 51 for food equipment materials. Use them to seal and cushion narrow spaces in food service equipment.
Seal and cushion narrow spaces in hot environments with these silicone foam cords.
Protect electronic components from electrostatic shocks and chemicals while safeguarding them from bumps and drops during shipping and storing.
Cushion electronic components from impact as you protect them from electrostatic shocks during shipping and storing.
These polyurethane foam egg-crate sheets divert static electricity to protect sensitive equipment from damage.
This foam meets UL fire extinguishing specifications. It's made from a blend of Buna-N, neoprene, and vinyl to offer offer good resistance to oil.
Made from a blend of Buna-N, neoprene, and vinyl, these foam strips have good resistance to oil.
Made of Epichlorohydrin, an alternative to Buna-N, these foam sheets have excellent resistance to oil.
Stiff yet moldable, this foam takes the shape of any object that's pressed into it and will never spring back.
An economical alternative to Viton® fluoroelastomer foam, these semi-rigid nylon foam sheets offer good resistance to a wide range of chemicals.
Offering excellent resistance to corrosive environments, these Viton® fluoroelastomer foam sheets and strips stand up to a wide variety of chemicals, fuels, and oils.
Know at a glance when a tool is missing from a toolbox with this dual-color foam.
Similar to a sponge, this open-cell foam absorbs and holds up to 30 times its weight in liquid.
These gaskets absorb electromagnetic interference (EMI) and radio frequency interference (RFI) to prevent inaccurate signals, flickering displays, and other electrical problems.
Fit these gaskets over connectors that plug in to your enclosure to absorb interference and prevent signal problems.
This material is made with neoprene for resistance to refrigerants.
These neoprene gasket sheets are reinforced with a nylon insert to prevent them from losing shape while under pressure up to 1,000 psi.
Made from a blend of cork and rubber, this material is commonly used for low-pressure applications.
This paper-thin material is commonly used for light-duty gasketing.
For use in high-pressure applications up to 3,000 psi.
Inherently sticky, this silicone gel material conforms to irregular surfaces and stays in place for an effective moisture barrier.
Damp vibration when sealing in moist environments with this EPDM gasket material.
Also resistant to inert gases and abrasion, this material is made from blended aramid fiber/SBR rubber.
The all-SBR rubber construction of this material stands up to abrasion better than blended aramid/SBR.
Also resistant to water and salts.
Made of FDA-listed material for use with food and beverage.
Made from a blend of aramid fiber and Buna-N rubber.
Stronger and able to withstand higher pressures than other types of aramid/Buna-N.
Commonly used in low-pressure applications, cork is blended with Buna-N rubber for a flexible, oil-resistant gasket material.
This material resists boric acid, citric acid, isopropyl alcohol, fuel, and oil.
In addition to withstanding temperatures up to 450° F, these silicone rubber gasket sheets resist water and salts.
Made from a blend of carbon and Buna-N rubber, this material is unaffected by oil and temperatures up to 650° F.
Made of American Bureau of Shipping Fire Safe approved graphite material, these sheets withstand temperatures up to 650° F and pressure up to 2,000 psi.
Also resistant to salt water.
These neoprene gaskets also resist salts.
The all-SBR rubber construction of these gaskets provides better abrasion resistance than blended aramid/SBR gaskets.
Aramid fibers and SBR rubber are blended for resistance to water, inert gases, and abrasion.
These compressible Buna-N rubber gaskets ensure a tight seal. They also resist water and salts.
In addition to oil, these blended aramid fiber/Buna-N rubber gaskets resist water and aliphatic hydrocarbons such as ethylene.
Furnished with enough nuts and bolts to create a connection between two steel pipe flanges.
Resistant to boric acid, citric acid, isopropyl alcohol, fuel, oil, and transmission fluid.
In addition to withstanding temperatures up to 450° F, these silicone rubber gaskets resist water and salts.
Form a snug seal on grooved-end pipe fittings where water is a concern. Made of EPDM rubber, these gaskets won't break down from contact with water.
These gaskets are made from a blend of graphite and Buna-N rubber to withstand temperatures up to 650° F.
These blended carbon/Buna-N rubber gaskets are unaffected by oil and temperatures up to 650° F.
Create a tight seal on grooved-end pipe fittings that are exposed to oil. These gaskets are Buna-N, so they won't break down from oil.
Aramid fibers are blended with SBR rubber to resist inert gases. These gaskets also resist abrasion.
Furnished with plastic sleeves and washers to provide a layer of protection against dielectric corrosion, which occurs when different metals are joined.
Made of EPDM rubber, these gaskets also resist salt water.
Often called controlled swell gaskets, these gaskets absorb water near the inside of the flange and swell to fill gaps. Use them on uneven surfaces, such as grooved, corroded, or pitted flanges.
Carbon is blended with Buna-N rubber for gaskets that are unaffected by oil and temperatures up to 650° F.
These gaskets resist boric acid, citric acid, isopropyl alcohol, fuel, oil, and transmission fluid.
Resistant to water and salts, these silicone rubber gaskets can handle temperatures up to 450° F.
Made from a blend of graphite and Buna-N rubber, these gaskets withstand temperatures up to 650° F.
Each gasket comes with enough bolts and nuts to create a connection between two steel pipe flanges.
Made of Buna-N rubber, these gaskets compress to ensure a tight seal. They resist oil, water, and salts.
These blended aramid fiber/Buna-N rubber gaskets also resist water and aliphatic hydrocarbons such as ethylene.
The included plastic sleeves and washers provide a layer of protection against dielectric corrosion, which occurs when different metals are joined.
Also resist aliphatic hydrocarbons, such as ethylene.
Resist boric acid, citric acid, isopropyl alcohol, fuel, oil, and transmission fluid.
The hollow construction on these seals provides better compressibility than solid rubber seals. Made of silicone rubber, they also resist water and salts.
Tested in accordance with UL and NFPA standards, these silicone rubber seals are for use on fire-rated doors.
These solid silicone rubber seals also stand up to water and salts.
Made of solid silicone rubber and tested to meet strict NFPA fire standards, these seals can be used on fire-rated doors in environments that reach up to 600° F.
Made of solid silicone foam rubber, these seals also resist water and salts.
It’s the hollow construction that makes these seals more compressible than solid seals. Made of silicone foam rubber, they also resist water and salts.
These seals are made of solid EPDM foam rubber.
Made of EPDM foam rubber, these seals have hollow construction for more compressibility than solid seals.
Hollow construction makes these seals more compressible than solid rubber seals. Made of EPDM rubber, they also resist salts.
Made of vinyl rubber, these seals also resist salts and detergents. Hollow construction provides compressibility.
These solid EPDM rubber seals also resist salts.
To stand up to oil, grease, salts, water, and most detergents, these seals are made of Buna-N rubber.
Use these Viton® fluoroelastomer rubber seals with fuels and aggressive chemicals, such as petroleum oil, hydrofluoric acid, and propyl alcohol.
These seals have solid construction.
Hollow construction makes these seals more compressible than solid seals.
These hollow seals offer better compressibility than solid seals.
Hollow construction on these vinyl rubber seals provides better compressibility than seals with a foam core. They also resist salts and detergents.
Firmer and more durable than EPDM foam rubber seals, these seals are made of EPDM rubber. They also resist salts.
The foam core makes these vinyl rubber seals firmer and more durable than hollow seals. They also resist salts and detergents.
Softer and more flexible than EPDM rubber seals, these EPDM foam rubber seals will effortlessly conform to uneven surfaces.
Made of Buna-N rubber, these seals resist oil, grease, salts, water, steam, and most detergents.
Made of Viton® fluoroelastomer rubber, these seals stand up to fuels and aggressive chemicals, such as petroleum oil, hydrofluoric acid, and propyl alcohol.
Push these T-seals into grooves and channels to block out moisture, dust, and debris.
Made of EPDM foam or EPDM rubber, these seals stand up to water, sunlight, and ozone.
Made of EPDM rubber, these seals resist water, sunlight, and ozone.
Commonly used on vehicle windows, these seals have a flocked, velvet-like finish to reduce friction.
These seals have a solid bulb.
More compressible than seals with a solid bulb, these seals have a hollow bulb.
Quickly seal corners without needing to bend, cut, or piece straight seals together. All of these seals are made of EPDM foam to resist water, sunlight, and ozone.
FDA compliant, these seals can directly touch food. They’re made of Buna-N foam, so they resist oil, grease, salts, water, and most detergents.
In addition to oil, these Buna-N seals resist grease, salts, water, steam, and most detergents.
Save time covering corners—these seals come formed to a corner, so they don't require bending or cutting.
Able to withstand temperatures up to 500° F, these all-rubber silicone seals resist water and salts.
The Buna-N foam rubber bulb on these seals also resists grease, salts, water, steam, and most detergents.
Already formed to 90°, these seals save you time and effort because you don’t have to cut and adhere straight pieces together to cover a corner. They’re made of Buna-N foam, so they resist oil, grease, salts, water, and most detergents.
FDA compliant and made of silicone rubber, these seals are safe for direct contact with food and in temperatures up to 350° F.
Made of EPDM foam, these seals resist water, sunlight, and ozone while also meeting transportation industry standards for flames, smoke, and toxicity.
These seals have an EPDM foam rubber bulb.
Instead of cutting and adhering straight pieces together to cover a corner, these seals save you time and effort by coming already formed to 90°. All are made of EPDM foam to resist water, sunlight, and ozone.
These seals have an EPDM foam rubber wiper, which is softer and more flexible than EPDM rubber wipers.
The EPDM rubber wiper is firmer and more durable than the EPDM foam rubber wipers.
In addition to oil, these seals resist grease, salts, water, steam, and most detergents.
Made of silicone rubber, these seals can handle temperatures up to 500° F, plus they resist water and salts.
Use these H-seals to lock out moisture, dust, and debris around windows and panels.
With an accordion shape, these seals extend to cover large gaps, so they block debris and allow the two edges they connect to move.
Softer and more flexible than EPDM rubber, these EPDM foam seals have a wiper that clears debris and a bulb that conforms to uneven surfaces to guard against dust, noise, and vibration.
Seal stationary windows into place with these EPDM seals. EPDM resists water, sunlight, and ozone.
Sunlight, ozone, and water won’t affect these washers.
These washers surpass other rubber washers when it comes to withstanding oil, grease, and fuel.
These washers withstand harsh chemicals such as acetic acid and isopropyl alcohol.
Made of durable material, these washers resist wear from rubbing and scraping surfaces.
These SBR rubber washers are reinforced with cloth fibers.
Made of Buna-N rubber, these washers offer excellent chemical, weather, and oil resistance. The raised grid pattern prevents sideways shifting.
These polyurethane washers withstand wet conditions as well as sunlight, ozone, and some chemicals.
Good for electroplating, paint baking, and powder-coating applications, these plugs withstand temperatures up to 570° F. All are tapered to fit a range of hole diameters.
The hollow construction allows these plugs to compress for a snug fit in threaded and unthreaded holes of varying diameters. Good for electroplating, paint baking, and powder-coating applications, they withstand temperatures up to 450° F.
Place a plug into an opening and tighten the wing nut—the sides expand to create a seal in holes of varying diameters. Good for paint baking and powder-coating applications, these plugs withstand temperatures up to 450° F.
Place a plug into an opening and tighten the wing nut—the sides expand to create a seal in holes of varying diameters.
Often used as laboratory stoppers, these rubber plugs have good impact and abrasion resistance. They’re tapered to fit a range of hole diameters.
These plugs have excellent chemical resistance for masking parts during chemical finishing applications such as plating and anodizing. Their tapered design fits a range of hole diameters.
Made of FDA listed materials, these plugs are suitable for food contact. They're tapered to fit a range of hole diameters.
Designed with a flange, these plugs protect countersunk holes during anodizing, electroplating, paint baking, and powder-coating applications. All withstand temperatures up to 600° F. Use the smaller end of the plug to pull the larger end into a through hole to form a tight seal.
Good for electroplating, paint baking, and powder-coating applications, these plugs withstand temperatures up to 600° F. To form a tight seal, use the smaller end of the plug to pull the larger end into a through hole.
Also known as mouse tails, these tiny plugs fit through-hole IDs as small as 0.022”, 0.025", or 0.03”.
These plugs have excellent chemical resistance for masking parts during chemical finishing applications such as plating and anodizing. Use the smaller end of the plug to pull the larger end into a through hole to form a tight seal.
A time-saving alternative to threaded plugs, these plugs press in place and have an ergonomic pull tab for quick and easy removal. Use them to temporarily protect holes in objects from contaminants during storage, painting, and light fabrication.
With a compressible flanged top, these plugs are designed to seal the ends of copper tubing often used in water supply lines, refrigerant lines, and HVAC compressors. All are sized to fit standard copper tube dimensions.
These plugs withstand temperatures up to 600° F to protect internally threaded NPT connections from contaminants during electropainting, paint baking, and powder coating applications.
Push these plugs into place for a finished appearance on both sides of a panel.
These caps have excellent chemical resistance for masking parts during chemical finishing applications such as plating and anodizing.
Good for electroplating, paint baking, and powder-coating applications, these caps withstand temperatures up to 440° F or 570° F.
The large domed head extends beyond the diameter of your pipe, rod, or tubing for added protection.
Made of silicone, these caps withstand temperatures of 450° F for electroplating, paint-baking, and powder-coating applications. All of these flexible caps are tapered to fit a variety of unthreaded and threaded objects.
A vibrant yellow color makes these caps stand out. They are made of flexible rubber that conforms for a snug fit. Pull the tab for easy removal.
Tug on the pull tabs to stretch these caps onto the tips of bottles, beakers, flasks, and cylinders, creating an airtight seal.
Use this urethane foam for a variety of prototyping applications.
Use sensors, vacuum lifter mounts, and robot adapter plates to add functionality or replace worn cups, pads, and other parts to extend the life of your vacuum lifters.
Flip holders down to keep doors open; flip up to release.
Latch your door to the wall for a secure hold.
Step on the spring-operated plunger to hold your door in place; tap on the release lever to free it.
A magnet holds the door open; pull on the door to release.
Latch your door to the floor for a secure hold.
Use these dust caps and plugs to keep contaminants out of your hose line.
Use these couplings at pressures up to 3,000 psi. They consist of a plug and socket that connect and disconnect quickly. Use them if you need frequent access to a line. They are compatible with Pioneer-shape plugs and sockets.
Form a barrier to stop small spills from spreading on tabletops and workstations with these flexible rubber dikes.
Block grates and manholes to stop liquids from going in, or seal inactive drains to keep odors from leaking out.
Create a barrier to stop spills from spreading. Dikes bend to form almost any shape you need. They resist oil, water, and most chemicals, and are nonabsorbent, washable, and reusable.
Twist the wing nut on these plugs to expand the seal.
Twist the easy-grip t-handle on these plugs to expand the seal.
Turn the square head of the plug into the sealing ring to close off pipe openings.
Turn the cam handle to expand the seal, then snap the handle down to hold it in place.
Tighten the nut on these plugs to expand the seal.
Use the bypass tube on these plugs to add air, water, and other fluid to your pipeline or to relieve pressure while testing.
A silicon carbide coating over a carbon foam base combines the hardness, chemical resistance, and high temperatures silicon carbide is known for with the lightweight versaitility of foam. It’s often used for cores in composite layers and to filter molten metals and corrosive liquids.
Insert these plugs deep within your pipe to seal it off from the inside.
Use the bypass tube to add air, water, and fluid or relieve back pressure.
Use the bypass tube on these plugs to add air, water, and other fluid to your pipeline or to relieve back pressure while testing.
Also known as pneumatic plugs, these plugs conform to wide and out-of-round pipes.
Penetrate tight pipe junctures with the most flexible expansion plugs we offer.
These extra-long plugs allow you to seal off two pipes at the same time. They have two separate inflation chambers to release back pressure gradually and prevent splash back as water clears the drain line.