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With flat edges on all four sides, square-profile O-rings cover more surface than round-profile O-rings for a better seal in static applications, such as hose, pipe, and faucet connections.
With flat edges on all four sides, these square-profile O-rings cover more surface than round-profile O-rings for a better seal in static applications, such as hose, pipe, and faucet connections.
These square-profile O-rings have flat edges on all four sides, so they cover more surface than round-profile O-rings for a better seal in static applications, such as hose, pipe, and faucet connections.
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.
These O-rings have a square profile with flat edges on all four sides. They cover more surface than round-profile O-rings for a better seal in static applications, such as hose, pipe, and faucet connections.
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.
Damp vibration when sealing in moist environments with this EPDM gasket material.
With a maximum pressure of 55 psi, this cork gasket material is commonly used in low-pressure applications.
The all-SBR rubber construction of this material stands up to abrasion better than blended aramid/SBR.
For use in high-pressure applications up to 3,000 psi.
This paper-thin material is commonly used for light-duty gasketing.
Made from a blend of cork and rubber, this material is commonly used for low-pressure applications.
Inherently sticky, this silicone gel material conforms to irregular surfaces and stays in place for an effective moisture barrier.
Also resistant to inert gases and abrasion, this material is made from blended aramid fiber/SBR rubber.
In addition to water and oil, this pliable leather gasket material resists salts, grease, and detergents.
Also resistant to water and salts.
Made of FDA-listed material for use with food and beverage.
Commonly used in low-pressure applications, cork is blended with Buna-N rubber for a flexible, oil-resistant gasket material.
Stronger and able to withstand higher pressures than other types of aramid/Buna-N.
Made from a blend of aramid fiber and Buna-N rubber.
In addition to withstanding temperatures up to 450° F, these silicone rubber gasket sheets resist water and salts.
This material withstands temperatures up to 850° F and pressure up to 2,000 psi.
Able to withstand pressure up to 10,000 psi, this is our highest pressure-rated gasket material. It handles temperatures up to 850° 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.
Made from a blend of carbon and Buna-N rubber, this material is unaffected by oil and temperatures up to 650° F.
Our highest temperature gasket material, this is made of high-alumina ceramic and can withstand temperatures up to 2600° F.
An ETP (electrolytic tin plate) laminate covers the vermiculite core to ensure this gasket material maintains its shape as it expands and contracts during heating/cooling cycles. Maximum temperature is 1830° F.
In addition to handling temperatures up to 1800° F, this vermiculite material resists most acids, alkalies, and detergents.
This material is made of expanded PTFE. It is more compressible than pure PTFE to ensure a tight seal.
Made of pure PTFE, this material has a slippery surface that prevents sticking.
A fiberglass filler in this PTFE gasket material provides strength and prevents it from thinning out when compressed.
This material resists boric acid, citric acid, isopropyl alcohol, fuel, and oil.
Each assortment includes a variety of materials to meet your gasketing needs.
Made of FDA-listed material for use with food and beverage, these PTFE seals are lubricated with mineral oil. Use them in pumps.
Aramid and PTFE fibers are blended for seals that resist chemicals and abrasion. Use these seals in pumps.
These lubricated PTFE fiber seals stand up to most chemicals. Use them in pumps and valves.
These seals are made of PTFE fiber without a lubricant, so they’re harder than other chemical-resistant packing seals to handle high-pressure valve applications.
Built for high-speed pump and valve applications, these super-tough seals are made of expanded-graphite yarn with carbon-yarn corners.
Also known as 100% GFO, these expanded PTFE seals contain graphite powder, which dissipates heat away from the shaft and allows pumps to run cool at high speeds.
Made of ePTFE with a graphite filler and reinforced by Aramid, these seals combine heat protection with chemical and abrasion resistance.
Our most compressible packing seals, these require less pressure than any other to make an effective seal. They’re made of lubricated PTFE-impregnated aramid fiber and are for use in pumps.
Synthetic yarn that’s comparable in strength to aramid is combined with graphite for soft seals that dissipate heat away from the shaft to extend the life of pumps.
Made of PTFE-impregnated synthetic fiber, these seals are for use in pumps.
The most abrasion resistant of all our packing seals, these are made of PTFE-impregnated aramid fiber that has been saturated in a lubricant. They are for use in pumps.
Since they require lighter packing pressure than standard oil- and water-resistant packing seals, these seals cause less friction and reduce shaft wear. They are for use in pumps and valves.
Offering excellent flexibility, these seals are made of expanded graphite yarn. Use them for steam applications in pumps and valves.
Use these graphite-impregnated graphite seals for steam applications in pumps and valves.
Made of graphite-impregnated carbon, these steam-resistant seals dissipate heat from the shaft to protect pumps and valves when operating at high speeds.
The Inconel-wire reinforcement in these expanded-graphite yarn seals ensures they keep their shape longer than the High-Flexibility Steam-Resistant Packing Seals. Use them for steam applications in valves.
Made of flax fiber, these seals are excellent for marine applications since they resist salt water.
A square O-ring prevents these piston seals from rocking in the groove.