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Run chemicals through this tubing at temperatures between -100° F and 500° F.
Ultraviolet light won’t cause this tubing to degrade or deteriorate.
You don’t have to worry about this tubing cracking due to stress or impact—even over a wide range of temperatures.
Hard walls give this tubing excellent strength in high-pressure and vacuum applications.
A lightweight alternative to stainless steel, this tubing can handle extreme-pressure applications up to 1,000 psi.
This durable tubing has the best abrasion and wear resistance of all our hard tubing for chemicals.
Not only can this tubing handle temperatures between -450° F and 500° F, it also has a convoluted spiral design for good flexibility and smooth flow.
The corrugated design allows this tubing to extend and compress just like an accordion.
Keep your work site safe and clutter free—this coiled tubing extends when you need it and retracts out of the way when you don't.
Made of highly chemical-resistant materials, this tubing withstands harsh chemicals such as hydrochloric acid, sodium hydroxide, and sulfuric acid.
Use this resilient tubing in high-temperature chemical applications up to 400° F.
This tubing can withstand high-temperature chemical applications up to 400° F.
An FEP liner gives this tubing better chemical resistance than any of our other firm tubing. It also provides a smooth interior for easy cleaning unrestricted flow.
The industry standard for fuel and lubricant applications, this tubing can be used intermittently with petroleum-based products without becoming hard or brittle.
With the best oil resistance of all our fuel and lubricant tubing, this tubing won’t deteriorate or become brittle when exposed to oil—even with long-term use.
This tubing is soft enough to handle continuous bending and flexing, yet tough enough to resist tearing and abrasion.
This tubing can handle the highest temperatures of all of our fuel and lubricant tubing. Use it in applications up to 450° F.
Hard walls give this tubing the strength to handle high-pressure fuel and gasoline applications.
Aluminum tubing is lightweight with good corrosion resistance and weldability.
This tubing meets MIL-T-7081 standards.
Instead of a metal sleeve (ferrule), these fittings have a rubber sleeve that cushions tubing and absorbs vibration to maintain a tight seal, even when connected to large pumps.
With a nickel-plated finish, these compression fittings resist corrosion better than plain brass fittings.
The sleeve in these fittings is rubber instead of metal, so it cushions the tubing and absorbs vibration while creating a tight seal.
No sleeve is required to assemble these fittings, which makes for a faster, more convenient installation compared to 37° flared fittings. They are also known as refrigeration and SAE fittings.
The flared end of the fitting nests inside the fitting body, providing extra support to the tubing. Fittings are also known as inverted 45° flared fittings.
Also known as JIS (Japanese Industrial Standard) fittings.
These fittings have two sleeves for extra gripping power. They bite into steel tubing as you tighten the nut to form a strong seal.
With the best corrosion resistance of any metal fitting we offer, these Hastelloy fittings will stand up to aggressive chemicals and are resistant to pitting and stress cracking. Also known as instrumentation fittings, they include a nut with two sleeves.
These Monel fittings have the corrosion resistance to handle hydrofluoric and sulfuric acid. Also known as instrumentation fittings, they include a nut with two sleeves.
The external hex bolt on these fittings allows for easy installation in cramped spaces. They are also known as banjo-style fittings and JIC (Joint Industrial Council) fittings. They provide a tight seal on tubing that is flared to 37°.
Yarn reinforcement gives this hose good strength under pressure.
Made of tough Buna-N rubber, this hose has the durability to stand up to gasoline, fuel oil, and other petroleum-based products.
With a tighter bend radius than other petroleum hose, this hose can easily twist and turn around equipment.
Commonly used to transfer gasoline, this hose is also known as curb pump hose.
Cast acrylic is easier to machine than extruded acrylic. It's comparable to Lucite and Plexiglas® Acrylic.
At only half the weight of glass, polycarbonate maintains excellent impact resistance across a wide temperature range. It's comparable to Lexan, Hyzod, Tuffak, and Makrolon.
Delrin® acetal resin, also known as acetal homopolymer, is stronger and stiffer than acetal copolymer.
The addition of PTFE provides a more slippery, wear-resistant surface than standard Delrin® acetal resin. It’s commonly fabricated into pump components, gears, and bearings.
An economical alternative to Delrin® acetal resin, this acetal copolymer offers similar wear resistance.
Also known as nylon 6/6, this general purpose material is often used for bearings, gears, valve seats, and other high-wear parts.
This cast nylon 6 material is easier to machine than other types of nylon. It’s comparable to Nylatron and Nycast.
The addition of MDS gives these tubes exceptional wear resistance along with a self-lubricating surface. They're made of cast nylon 6, making them easier to machine and better electrical insulators than other MDS-filled nylon tubes.
This nylon stays lubricated over time because it’s filled with oil. Use it to fabricate parts for hard-to-reach places where adding lubricants would be difficult.
A good choice for making sprockets and pulleys, these cast nylon 6 tubes withstand higher temperatures and are easier to machine than standard nylon 6/6 tubes.
In addition to a low-friction surface that prevents sticking and binding, this tough material is impact and wear resistant to handle the scuffs, scrapes, and strikes that other plastics can’t.
Because PVC resists many acids and alkalies, it’s widely used for tanks and in chemical-processing applications. Also known as PVC Type 1.
CPVC is just as chemical resistant as standard PVC Type 1 and can handle hotter temperatures up to 200° F.
Known for its naturally slippery surface, PTFE surpasses most plastics when it comes to chemical resistance and performance in extreme temperatures.
This glass-filled PTFE is more rigid than standard PTFE for increased durability in high-stress applications.
Not only does PEEK provide superior wear resistance in repetitive processes, it is also resists wear caused by abrasion. PEEK can be used as a lightweight substitute for metal parts in chemical-processing applications.