Bolt two same-size flanges together with a gasket to create an access point within a pipe line.

Press these fittings onto stainless steel pipe using a crimping tool for a permanent, leak-tight connection that's faster than threading or welding and doesn't require heat.

Also known as Code 61 SAE hydraulic flanges.

Create an access point in systems where corrosion is a concern. Made of stainless steel, these bleed rings resist rusting.

Use these corrosion-resistant fittings in a low-pressure pipe line.

Also known as Code 61 SAE hydraulic flanges.

Bolt two flanges of the same size together with a gasket to create an access point in a pipe line.

Crimp these fittings onto steel pipe to form a tightly sealed connection that’s faster than threading or welding and doesn’t require heat.

Also known as Code 61 SAE hydraulic flanges.

These flanges are for low-pressure applications in noncorrosive environments.

The galvanized finish on these fittings provides fair corrosion resistance. Fittings are for use in low-pressure applications.

Also known as Pressure Class 300 flanges, these medium-pressure flanges have a galvanized finish for fair corrosion resistance.

Also known as Code 61 SAE hydraulic flanges.

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.

Designed for medium-pressure applications, these fittings have better strength than our low-pressure aluminum pipe fittings.

Also known as Pressure Class 150 flanges, these brass flanges are designed for low-pressure applications.

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.

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.

Bolt two same-size flanges together with a gasket to create an access point within a line. Also known as Schedule 40 flanges, they are the industry standard for gravity-flow drain, waste, and vent (DWV) applications.

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.

Connect extra-support quick-clamp fittings for a fast and easy way to access your line.

Create access points in ultra-high-vacuum lines or chambers by bolting two same-size flanges together with a copper gasket between them. The flanges’ sharp edges dig into the copper gasket and form an extremely tight seal, which means they handle higher vacuum pressures than other high-vacuum fittings with rubber gaskets.

Connect claw-clamp high-vacuum fittings for an airtight seal.

Twist these fittings onto high-vacuum tubing to quickly make sealed, high-vacuum connections without the need for clamping, welding, or tools.

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.

Use these clamps with quick-clamp fittings for dairy to quickly connect and disconnect your line as needed.

Couplings are metal, which has better durability than plastic cam-and-groove hose couplings. They consist of a plug and a socket that connect and disconnect quickly. Use them if you need frequent access to a line. To connect, insert the plug into the socket and push the levers down.

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.

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.

Also known as Gore GR.

Reinforced with a stainless steel insert, these gaskets are stronger and can hold their shape better than gaskets without an insert.

Made of pure PTFE, these gaskets have a slippery surface that prevents sticking.

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.

Carbon is blended with Buna-N rubber for gaskets that are unaffected by oil and 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.

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 gaskets are made from a blend of graphite and Buna-N rubber to withstand temperatures up to 650° F.

Also known as Gore GR.

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 pure PTFE gaskets have a slippery surface that prevents sticking.

A stainless steel insert in these PTFE gaskets adds strength and makes them reusable.

In addition to oil, these blended aramid fiber/Buna-N rubber gaskets resist water and aliphatic hydrocarbons such as ethylene.

Also resistant to salt water.

Aramid fibers and SBR rubber are blended for resistance to water, inert gases, and abrasion.

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.

Trim the rubber cap to fit a range of pipe sizes.

Resist boric acid, citric acid, isopropyl alcohol, fuel, oil, and transmission fluid.

Also resist aliphatic hydrocarbons, such as ethylene.

Bolt flanges to equipment to start a run of duct.

Join duct and fittings with quick-release clamps for faster disassembly and cleanout than other duct systems.

Made of PVC plastic to withstand acids, alkalies, salts, and other corrosive vapors and fumes.

A spiral seam gives this duct greater strength and rigidity than standard duct.

Built to withstand temperatures up to 1000° F, these vent pipes and fittings are for use with boilers, furnaces, stoves, and other equipment that is fired by coal, gas, oil, propane, or wood.

Half the weight of steel, this aluminum framing resists corrosion in wet environments.

Stronger than plastic and aluminum, this is the lightest weight framing we offer. It has good resistance to chemicals and salt water.

In addition to being lightweight and strong, this plastic framing is nonconductive with good resistance to chemicals and salt water.

Fittings come in two pieces to wrap around rails, so you can quickly modify existing structures without disassembling. Use clamp-on framing and fittings to form temporary partitions, modular conveyors, and workstations.

Provide a connection for hose cocks, needle valves, and nozzles by attaching these flanges and turrets to your supply pipe.

Also known as single-start and self-locking lead screws and nuts, these have a single thread that runs the length of the screw. The nut travels only when the screw turns, so your system won't unexpectedly move when the lead screw is at rest.

Also known as trapezoidal-thread lead screws and nuts.

Multiple thread channels (also known as thread starts) create faster linear travel than lead screws with a single thread start.