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Bolt two same-size flanges together with a gasket to create an access point within a pipe line.
Butt-weld fittings allow for a smooth, flush connection that provides maximum flow.
Use these heavy duty forged flanges for high-pressure applications.
Also known as Code 61 SAE hydraulic flanges.
Also known as Schedule 10 fittings, these are thin, lightweight, and corrosion resistant.
Also known as Pressure Class 150 flanges, these corrosion-resistant flanges are designed for low-pressure pipe applications.
Use these corrosion-resistant fittings in a low-pressure pipe line.
Also known as ANSI flanges.
Also known as Code 61 SAE hydraulic flanges, these let you create an access point in a high-pressure hydraulic line.
Bolt two flanges of the same size together with a gasket to create an access point in a pipe line.
Even in temperatures as low as -46°, these A350 LF2 steel flanges won’t become brittle, so they absorb impact better than other low-pressure steel flanges.
FM-approved for fire protection applications, these flanges are cast iron, so they're brittle and can be quickly opened by hitting them with a sledge hammer.
Forged for extra strength, these heavy duty unthreaded flanges can withstand high-pressure applications.
With thicker, stronger walls than our standard-wall butt-weld pipe fittings, these fittings stand up to your high strength applications.
For excellent strength in extreme-pressure applications, choose these heavy duty Pressure Class 1500 flanges.
These flanges are for low-pressure applications in noncorrosive environments.
Use these fittings for low-pressure applications in noncorrosive environments.
Use these Pressure Class 150 pipe flanges in low-pressure lines where temperatures drop down to -40° F.
Suitable for use in fire-protection applications, these flanges are brittle and can be quickly opened with the strike of a sledge hammer.
The galvanized finish on these Pressure Class 150 flanges provides fair corrosion resistance.
The galvanized finish on these fittings provides fair corrosion resistance. Fittings are for use in low-pressure applications.
With better strength than our low-pressure steel flanges, these are for use in medium-pressure applications.
Also known as Pressure Class 300 flanges, these medium-pressure flanges have a galvanized finish for fair corrosion resistance.
Also known as Pressure Class 1500 steel flanges, these have the strength to handle high pressures.
Combine an adapter with a two-piece pipe flange (sold separately) to build a customized flange connection for noncorrosive environments.
The strongest steel fittings we offer, these can withstand extreme-pressure applications.
Also known as Pressure Class 125 flanges, these are for use in low-pressure applications. Flanges are aluminum, which is lightweight with good corrosion resistance.
In addition to being lightweight, these aluminum fittings offer good corrosion resistance. Use them in low-pressure flow applications.
Designed for medium-pressure applications, these fittings have better strength than our low-pressure aluminum pipe fittings.
Use these unthreaded flanges in low-pressure applications. Also known as Pressure Class 125 flanges.
Also known as Pressure Class 150 flanges, these brass flanges are designed for low-pressure applications.
Use these fittings in low-pressure flow applications. They have good corrosion resistance.
Bolt these flanges to another same-size flange with a gasket to create an access point within a pipe line. They are also known as Silbraze flanges.
Bolt two same-size flanges together with a gasket to create an access point within a line. They are also known as Pressure Class 150 flanges. They have thick, strong walls to handle heavy duty industrial plumbing and water supply applications, such as water processing, waste water treatment, and irrigation.
Bolt two same-size flanges together with a gasket to create an access point within a line. They are also known as Pressure Class 150 flanges. Use in high-temperature plumbing and water supply applications up to 200° F.
Use these polypropylene flanges in outdoor environments—they resist the damaging effects of ultraviolet light. They have the chemical resistance to stand up to acids, solvents, and other harsh substances. Bolt two same-size flanges together with a gasket to create an access point within a line. Flanges are also known as Pressure Class 150 flanges.
Bolt two same-size flanges together with a gasket to create an access point within a line. Flanges meet UL 94 V-0 for flame retardance to delay the spread of flames to valuable equipment. They are PVDF, which is comparable to Kynar, and has the chemical resistance to stand up to solvents and other harsh substances. Also known as Pressure Class 150 flanges.
Bolt two same-size flanges together with a gasket to create an access point within a line. Made of PTFE, they can handle a wider temperature range than any of our other plastic pipe flanges for chemicals. They are commonly used in high-purity chemical flow processes, such as semiconductor and clean room applications.
Create a leak-free, durable connection in plastic tanks, walls, or panels without gaskets or sealants.
Use these plastic fittings to connect gasoline fuel lines to machines and equipment. They have excellent corrosion resistance as well as high strength and impact resistance.
Connect different pipe sizes in your line while adding a point of flexibility between them. These expansion joints absorb movement between two connected pipes to reduce stress, vibration, and noise.
Also known as KF, QF, and NW fittings, these fittings are for high-vacuum applications, such as vacuum coating and heat treating, leak testing, and analyzing gases.
The smooth finish inside these stainless steel quick-clamp fittings makes it easy to remove product residue.
Use these fittings at pressures up to 9,700 psi. Also known as instrumentation fittings, they are made to tight tolerances for use in high-precision applications. They are compatible with Swagelok®, Let-Lok, and Parker A-Lok fittings.
Crimp these fittings to copper tubing with a crimping tool for a leak-tight connection that doesn’t require heat or soldering. They are comparable to Viega ProPress fittings.
Made of Buna-N rubber, these gaskets compress to ensure a tight seal. They resist oil, water, and salts.
The included plastic sleeves and washers provide a layer of protection against dielectric corrosion, which occurs when different metals are joined.
These blended aramid fiber/Buna-N rubber gaskets also resist water and aliphatic hydrocarbons such as ethylene.
Each gasket comes with enough bolts and nuts to create a connection between two steel pipe flanges.
Made of EPDM rubber, these gaskets also resist salt water.
Furnished with plastic sleeves and washers to provide a layer of protection against dielectric corrosion, which occurs when different metals are joined.
Aramid fibers are blended with SBR rubber to resist inert gases. These gaskets also resist abrasion.
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.
Also known as Gore GR.
Made of FDA-listed material for use with food and beverage.
Reinforced with a stainless steel insert, these gaskets are stronger and can hold their shape better than gaskets without an insert.
Form a seal even under the low torque needed for fiberglass flanges. Also known as Gore UPG, these gaskets are made from soft expanded PTFE.
A fiberglass filler in these PTFE gaskets provides strength to prevent them from thinning out when compressed.
Made of pure PTFE, these gaskets have a slippery surface that prevents sticking.
These gaskets resist boric acid, citric acid, isopropyl alcohol, fuel, oil, and transmission fluid.
Able to withstand temperatures up to 750° F, these graphite gaskets have a stainless steel insert for strength to handle pressure up to 1,000 psi.
Resistant to water and salts, these silicone rubber gaskets can handle temperatures up to 450° F.
Carbon is blended with Buna-N rubber for gaskets that are unaffected by oil and temperatures up to 650° F.
Our highest temperature gaskets, these are made of vermiculite to withstand temperatures up to 1800° F.
Made from a blend of graphite and Buna-N rubber, these gaskets withstand temperatures up to 650° F.
Also known as spiral-wound gaskets, these have a carbon steel outer ring and a 304 stainless steel inner sealing element with a graphite-based filler.
Instead of bolt holes, these gaskets have tines that easily fit around flange bolts to ensure they’re properly aligned with pipe openings. The tine design also means you won’t have to retorque the flange for alignment, saving time.
Made of 110 copper, these gaskets handle steam applications up to 600° F. They are electrically conductive and resist water, Freon, and fuel oil.
These gaskets have a carbon steel outer ring and a 304 stainless steel inside sealing element with a PTFE filler that’s virtually chemically inert. They're also known as spiral-wound gaskets.
A space between the outer ring and the sealing element prevents the element from being squeezed inward and contaminating the process line.
In addition to withstanding temperatures up to 450° F, these silicone rubber gaskets resist water and salts.
These blended carbon/Buna-N rubber gaskets are unaffected by oil and temperatures up to 650° F.
These gaskets are made from a blend of graphite and Buna-N rubber to withstand temperatures up to 650° F.
Our highest-temperature gaskets, these are made of vermiculite to withstand temperatures up to 1800° F.
Made of soft expanded PTFE, these gaskets are reinforced with a stainless steel insert for added strength. They can hold their shape better than gaskets without an insert.
These soft expanded PTFE gaskets are made of FDA-listed material for use with food and beverage.
Often used with fiberglass flanges where you want to avoid overtightening, these gaskets seal under low torque. They’re made of soft, expanded PTFE that is also known as Gore UPG.
These pure PTFE gaskets have a slippery surface that prevents sticking.
Reinforced with fiberglass filler for strength, these PTFE gaskets won't thin out when compressed.
A stainless steel insert in these PTFE gaskets adds strength and makes them reusable.
Resistant to boric acid, citric acid, isopropyl alcohol, fuel, oil, and transmission fluid.
Also resistant to salt water.
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 neoprene gaskets also resist 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.
These compressible Buna-N rubber gaskets ensure a tight seal. They also resist water and salts.
Add a finishing touch to the area around protruding pipes with these corrosion-resistant plates, which are also known as escutcheons.
Half the weight of steel, this aluminum framing resists corrosion in wet environments.
To provide corrosion resistance in wet environments, this framing is galvanized.
Use these kits to connect standard-size stainless steel pipe flanges for ANSI Class 150 or 300.
Measure, throttle, and regulate the flow of liquids and gases in your line by adding an orifice plate to these unions.