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Push these T-seals into grooves and channels to block out moisture, dust, and debris.
Commonly used on vehicle windows, these seals have a flocked, velvet-like finish to reduce friction.
Made of EPDM rubber, these seals resist water, sunlight, and ozone.
Made of EPDM foam or EPDM rubber, these seals stand up to water, sunlight, and ozone.
Seal food areas that can reach temperatures up to 375° F.
Able to withstand temperatures up to 500° F, these all-rubber silicone seals resist water and salts.
Similar to standard silicone seals, fluorosilicone rubber seals can be used at high temperatures, but also withstand fuel and oil.
In addition to oil, these Buna-N seals resist grease, salts, water, steam, and most detergents.
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.
Save time covering corners—these seals come formed to a corner, so they don't require bending or cutting.
More compressible than seals with a solid bulb, these seals have a hollow bulb.
These seals have a solid 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.
These seals have an EPDM foam rubber bulb.
Made of EPDM foam, these seals resist water, sunlight, and ozone while also meeting transportation industry standards for flames, smoke, and toxicity.
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.
FDA compliant and made of silicone rubber, these seals are safe for direct contact with food and in temperatures up to 350° F.
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.
The EPDM rubber wiper is firmer and more durable than the EPDM foam rubber wipers.
These seals have an EPDM foam rubber wiper, which is softer and more flexible than EPDM rubber wipers.
Made of fluorosilicone rubber, these seals withstand high temperatures like standard silicone without breaking down when exposed to fuel and oil.
Made of silicone rubber, these seals can handle temperatures up to 500° F, plus they resist water and salts.
In addition to oil, these seals resist grease, salts, water, steam, and most detergents.
Use these H-seals to lock out moisture, dust, and debris around windows and panels.
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.
With an accordion shape, these seals extend to cover large gaps, so they block debris and allow the two edges they connect to move.
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.
These seals have solid construction.
Hollow construction makes these seals more compressible than solid seals.
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.
Hollow construction makes these seals more compressible than solid rubber seals. Made of EPDM rubber, they also resist salts.
These solid EPDM rubber seals also resist salts.
Made of vinyl rubber, these seals also resist salts and detergents. Hollow construction provides compressibility.
Made of EPDM foam rubber, these seals have hollow construction for more compressibility than solid seals.
These seals are made of solid EPDM foam rubber.
Tested in accordance with UL and NFPA standards, these silicone rubber seals are for use on fire-rated doors.
The hollow construction on these seals provides better compressibility than solid rubber seals. Made of silicone rubber, they also resist 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.
These solid silicone rubber seals also stand up to water and salts.
Use these Viton® fluoroelastomer rubber seals with fuels and aggressive chemicals, such as petroleum oil, hydrofluoric acid, and propyl alcohol.
To stand up to oil, grease, salts, water, and most detergents, these seals are made of Buna-N rubber.
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.
Greater strength than standard High-Temperature Silicone translates into better shock-absorbing qualities and longer life.
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.
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.
With nearly twice the tensile strength of standard high-temperature silicone, these 90° angles absorb shock better and last longer.
These 90° angles meet UL 94V0 for flame retardance.
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 tubes are often used as jackets, seals, and insulation in hot environments.
Seal and cushion narrow spaces such as channels.
Meeting UL 94 V-0, these rods are flame retardant—use them to seal and cushion narrow spaces.
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.
Use these balls as seals in pumps and check valves, or let them bounce inside of vibrating sifters as an effective screen cleaner.
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.
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.
Commonly used for tires, conveyor belts, and chutes, SBR (styrene butadiene rubber) is harder and offers better abrasion resistance than natural rubber.
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.
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.
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.
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.
The thin profile seals narrow spaces such as channels and seams. Natural rubber will stretch up to six times its length.
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.
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.
Resistant to sunlight, ozone, and water, these 90° angles are good for sealing and cushioning corners.
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.
Sunlight, ozone, and water won’t affect these sheets and strips.
Often used as inner tubes, butyl rubber won’t allow air, fumes, or gases to pass through.
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.
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 and strips as flange gaskets and anywhere heavy compression would squeeze nonreinforced EPDM out of place.
Made of EPDM, these rubber balls won’t degrade from sunlight, ozone, or water. They can be used to clean screens inside vibrating sifters, dampen vibration inside assemblies, and seal pumps and check valves.
This rubber has better shock absorbing qualities and will provide longer life than Standard Multipurpose Neoprene.
Neoprene is also known as chloroprene. It offers good oil and abrasion resistance.
Stronger and more durable than High-Strength Multipurpose Neoprene, this rubber can handle high-tension applications such as belting.
Made from FDA-listed materials for use with food.
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.
This neoprene dissipates static electrical charge, which can damage or cause equipment to malfunction.
While other black rubber can leave a mark after use, these specially formulated neoprene sheets leave no evidence behind.
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.
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.
Jackets, seals, and insulation are just a few of the many uses for rubber tubes.
The cylindrical shape fits into channels and other narrow spaces for sealing and cushioning.
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.
Let these balls bounce inside of vibrating sifters for an effective screen cleaner or use them as seals in pumps and check valves.
Applications for these tubes include jackets, seals, and insulation.
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.
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.
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.
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.
Made from FDA-compliant materials for use with food and beverage, these sheets and strips won’t degrade from animal and vegetable oils.
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.
Offering higher tensile strength than standard Chemical-Resistant Viton® Fluoroelastomer, these sheets and strips provide greater tear resistance and longer life.
These small-diameter rods provide a seal in narrow spaces.
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.
Temperatures as low as –70° F have no effect on these fluorosilicone sheets and strips.
Viton® fluoroelastomer stands up to tough chemicals, such as nitric acid, ethylene glycol, and isopropyl alcohol.
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.
Even when temperatures rise to 445° F, these Kalrez sheets are resistant to virtually all classes of chemicals.
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.
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.
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.
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 cord stock is softer and creates a better seal in low-pressure applications than standard Buna-N cord stock.
Harder than standard Buna-N cord stock for better wear resistance.
The X shape of this cord stock provides four points of contact for a better seal in dynamic applications than round profile. It also requires less compression to make a seal, so it offers a longer service life.
This square-profile cord stock has flat edges on all four sides, which creates a better seal than round profile in static applications, such as hose, pipe, and faucet connections.
Made of FDA-listed material for use with food and beverage, this cord stock resists animal and vegetable oils, citric acid, sodium bicarbonate, and grease.
This cord stock resists benzene, boric acid, ethylene glycol, and isopropyl alcohol.
Harder than standard Viton® fluoroelastomer cord stock for better wear resistance.
More chemical resistant than standard Viton® fluoroelastomer, this cord stock is made of Grade ETP Viton® fluoroelastomer. It resists harsh chemicals, such as calcium hydroxide, methyl ethyl ketone (MEK), and nitric and phosphoric acids.
This cord stock is softer and creates a better seal in low-pressure applications than standard fluoroelastomer cord stock.
This cord stock is made of FDA-listed material for use with food and beverage. It resists citric acid, diluted salt solutions, glycerin, and sodium bicarbonate.
The brown color of this cord stock makes it easy to identify.
Use neoprene cord stock to make O-rings for applications that come into contact with water.
This soft cord stock creates a better seal in low-pressure applications that standard neoprene cord stock.
In addition to water and steam, this EPDM cord stock resists diluted salt solutions, ethanol, and isopropyl alcohol.
Use this cord stock to create O-rings for high-temperature applications up to 400° F.
Create round-profile O-rings for sealing applications near ovens and other hot areas in your food plant.
This cord stock is softer and creates a better seal than standard silicone cord stock in low-pressure applications up to 400° F.
Also known as O-ring vulcanizing kits, these use a combination of heat and adhesive to create a bond that’s stronger with greater elasticity than a bond made of adhesive alone.
These kits include everything you need to make your own Buna-N, fluoroelastomer, or EPDM O-rings.
For a tight fit, the seal projection can be adjusted.
Mount this weatherstripping to the sides and top of a door frame to seal gaps.
No need to drill mounting holes, this weatherstripping has a peel-and-stick adhesive backing.
Also known as door sweeps, this weatherstripping closes the gap between the bottom of the door and the floor.
In addition to mounting to the door's face, this weatherstripping fits into cutouts (mortises) to mount flush with the door.
Avoid scuffing your floor and reduce wear on your seals—this weatherstripping has a plunger that lowers the seal as the door is closed and raises it as the door is opened.
Seal drafts, dust, and insects out of your space—this weatherstripping hugs the bottom of your door.
Close gaps between the top of a fire-rated door and its frame to comply with NFPA safety regulations.
Close the gap between the bottom of an overhead door and the floor.
Seal the space between your double doors.
An alternative to heat transfer compounds, these soft, flexible pads transfer heat from a source to a heat sink.