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Also resistant to salt water.
Aramid fibers and SBR rubber are blended for resistance to water, inert gases, and abrasion.
Made of 110 copper, these gaskets handle steam applications up to 600° F. They are electrically conductive and resist water, Freon, and fuel oil.
Made of EPDM rubber, these gaskets also resist salt water.
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.
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.
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.
Inherently sticky, this silicone gel material conforms to irregular surfaces and stays in place for an effective moisture barrier.
These O-rings also resist ethanol and ethylene glycol.
Made of FDA-listed material for use with food and beverage.
These O-rings withstand higher temperatures than standard EPDM O-rings.
When you need an O-ring that’s not an industry standard size, we can make one to fit your requirements.
Also known as Boss O-rings, these O-rings are for use in tube fittings with a straight-thread connection.
In addition to resisting chemicals, such as benzene, butyl alcohol, and ethylene glycol, these Viton® fluoroelastomer ETP O-rings resist steam.
Kalrez 6375 O-rings are preferred over Kalrez 4079 for chemical-processing environments and applications involving steam.
These assortments include a mix of EPDM O-rings that resist water and steam and silicone O-rings that resist temperatures up to 450° F.
In addition to water and steam, these EPDM O-Rings resist ethanol and ethylene glycol.
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.
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 graphite-impregnated carbon, these steam-resistant seals dissipate heat from the shaft to protect pumps and valves when operating at high speeds.
PTFE has excellent chemical resistance and withstands a wide temperature range of -110° F to 500° F.
Cut this stock to make wear rings that fit any rod or bore diameter.
Made from PTFE, these wear rings have a slippery surface that allows rods to move at least three times faster than nylon wear rings.
Made from MDS-filled PTFE for a slippery surface, these wipers allow rods to move three times faster than other rod wipers.
An extended spring on these seals accommodates variations in seal cavity length and pump misalignment.
Rated for pressure up to 10,000 psi, these seals withstand the highest pressure of our piston seals.
A square O-ring prevents these piston seals from rocking in the groove.
PTFE gives these seals a slippery surface that allows rod speeds more than two times faster than our other piston seals.
Made of PTFE, this tape has a slippery surface that keeps threads from binding to make parts easy to assemble.
This tape has a higher density than standard tape for a better seal between threads.
Use color to identify water, gas, and chemical connections.
With 10% copper flake content, this tape matches the color of copper, brass, and bronze threads for a seamless finish.
This tape contains nickel to prevent seizing and galling associated with stainless steel threaded connections. It’s also good for use with other metals.
Remaining pliable over time, these high-temperature sealants protect against leaks caused by vibration and pressure—they naturally fill voids before leaks can develop.
These sealants come in bottles, cans, and tubes so you can choose the quantity that covers your application.
Much thicker than sealants for fine threads, these sealants bridge the gaps between coarse threads.
Formulated to flow into small spaces, use these sealants between fine threads.
Apply this thread sealant stick without a mess.
Often used in high-vibration applications that could cause standard thread sealants to fail, these never fully harden and remain pliable enough to self-heal and stop leaks before they start.
PTFE provides a slippery surface that keeps threads from binding. These sealants never fully harden, remaining pliable enough to self-heal and stop leaks before they start.
Apply these thread sealant sticks without a mess.
Formulated for high lubricity, these sealants allow easy assembly of finely threaded hydraulic and compressed air system components. They're also free of fillers that could contaminate system media.
Completely free of oil and chemically inert, these sealants are safe to use with wet and dry oxygen systems.
Thinner than non-sagging sealants, these flow easily into cracks and have a smooth finish.
Designed to withstand extreme environments, these fluoroelastomer sealants have excellent resistance to harsh chemicals. They’re non-sagging, so they won't drip from vertical and overhead surfaces.
These non-sagging sealants will not drip while hardening on vertical and overhead surfaces.
A silicone-coated fiberglass cover sheds sparks and molten metal splash. These seals resist steam, most refrigerants, salts, and grease. They can withstand temperatures up to 450° F.
Made from tightly woven calcium alumina silicate, these seals can handle temperatures from –300° to 1100° F.
Alumina silicate is loosely woven to create these ceramic seals that are stronger and more flexible than Ultra High- and Low-Temperature Rope Seals. They can handle temperatures from –300° to 2300° F.