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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.
This material suppresses static charges to prevent dust from building up.
Compared to our standard UHMW polyethylene, these sheets and bars hold up better to scuffs and scrapes in high-speed, high-precision, and high-impact applications—such as conveyor equipment, chute liners, and machine guards. Also known as Tivar HPV.
Often used in high-speed, high-precision, and high-impact applications, such as conveyor rollers and bearings, these rods stand up to scratches and scuffs better than our standard UHMW polyethylene rods. Also known as Tivar HPV.
Also known as Tivar H.O.T., this material lasts up to 10 times longer in high-temperature applications than standard UHMW.
The addition of glass fibers makes this material more abrasion resistant than standard UHMW. It’s also known as Tivar 88.
If a chip of this material breaks off, it can be located by metal detectors to reduce contamination risks.
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.
A glass-fiber filler gives this material increased rigidity over standard Delrin® acetal resin. Use it to machine manifolds, impellers, and other parts that require rigidity.
An economical alternative to Delrin® acetal resin, this acetal copolymer offers similar wear resistance.
A silicone additive gives this material a self-lubricating surface that reduces friction and extends the life of your parts.
This material prevents the buildup of static charges.
Also known as nylon 6/6, this general purpose material is often used for bearings, gears, valve seats, and other high-wear parts.
This nylon 6/6 material is modified with MDS for a self-lubricating surface that’s more slippery than standard nylon. It's often used in high-friction applications, such as gears and bearings.
Because this 6/12 material absorbs less water than standard nylon 6/6, it holds its shape better. It’s often machined into hose fittings and valve components.
Designed for extreme wear resistance, this Kevlar-filled nylon 6/6 material lasts up to 20 times longer than unfilled nylon. Also known as Hydlar Z, it is often used for parts that are continuously exposed to wear and abrasion, such as wear strips and bushings.
With glass reinforcement, this nylon 6/6 material is stronger than standard nylon, plus it can withstand higher temperatures. It’s widely used in high-stress applications, such as caster wheels and automotive 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 results in a nylon with exceptional wear resistance as well as self-lubricating properties.
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.
Often used to make gears and wear strips, these cast nylon 6 sheets and bars withstand higher temperatures and are easier to machine than standard nylon 6/6 sheets and bars.
Use these cast nylon 6 rods to make sheaves, bushings, and pulleys. All withstand higher temperatures and are easier to machine than standard nylon 6/6 rods.
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.
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.
Because PVC resists many acids and alkalies, it’s widely used for tanks and in chemical-processing applications. Also known as PVC Type 1.
Made of PVC Type 2 plastic, these 90° angles resist impact and chemicals.
Offering greater impact resistance than standard PVC Type 1 with similar chemical resistance, this PVC Type 2 is widely used for parts that are subject to shock.
CPVC is just as chemical resistant as standard PVC Type 1 and can handle hotter temperatures up to 200° F.
Widely used for vehicle interiors and equipment housings, this blended material maintains its physical properties after thermoforming. It is comparable to Kydex.
Because this polypropylene resists swelling when exposed to water, it’s often fabricated into containers and parts for laboratory equipment.
A layer of soft LDPE is sandwiched between two thin layers of aluminum for strength and rigidity.
Polycarbonate maintains good impact resistance across a wide temperature range. It's comparable to Lexan, Hyzod, Tuffak, and Makrolon.
The addition of glass fibers to this polycarbonate increases tensile strength for use in structural applications.
The combination of high strength and water resistance, along with a variety of color choices, makes this opaque cast acrylic useful for outdoor signs and containers. It's also known as Lucite and Plexiglas® Acrylic.
Known for its electrical insulating properties, this polystyrene is often used for cable connectors, electrical housings, and in microwave applications. It is also known as Rexolite.
Polyester resists swelling in wet environments.
This film is often used as a separator when heating parts in an oven.
An aluminum coating on one side of this film reflects heat, so it’s widely used as an insulator and in packaging applications.
These black polyester rods protect from UV rays better than off-white polyester. Strong and semi-rigid, they won't swell in moist environments, so they're often made into valves, pump components, and spacers.
These black polyester sheets protect from UV rays better than off-white polyester. Strong and semi-rigid, they won't swell in moist environments, so they're often made into pump components and spacers.
When moisture-resistant polyester is combined with PTFE, the result is this self-lubricating material. It’s also called Hydex and PBT.
Use Noryl PPO for electrical insulating applications where moisture is a concern. It remains dimensionally stable over time, even when temperatures fluctuate.
A satin texture on one side of these PETG sheets makes them semiclear. You can see light from the other side, but not detailed shapes. They are more resistant to scratching and glare than standard PETG.
When exposed to UV rays, these cores won’t become brittle or break down. Use them to add stiffness to composite sandwiches that may be used outdoors without adding a lot of weight.
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.
Carbon enhances the stiffness of this material, while the addition of PTFE ensures a slippery surface.
A glass filler is added to this this PEEK material to offer increased durability over standard PEEK in high-stress structural applications.
Often used in food and pharmaceutical plants, these PEEK rods help you prevent contaminated products from leaving your facility.
Common in food and pharmaceutical plants, these PEEK bars help you identify contaminated batches.
These PEEK sheets can be machined to tight tolerances for use in electrical and semiconductor parts, such as test sockets.
Filled with glass, these Torlon 5030 bars are stronger and more rigid than Torlon 4301 and 4203, yet still electrically insulate like Torlon 4203.
Stronger and more rigid than Torlon 4301 and 4203 because they’re filled with glass, these Torlon 5030 rods are also electrical insulators like Torlon 4203.
Among the strongest plastic materials we offer, Torlon PAI has a slippery surface that resists wear. Use it to make high-friction compressor parts, bearings, and seals.
Use these Torlon 4203 rods instead of standard Torlon PAI to create parts that not only withstand extreme temperatures, but also are electrical insulators.
Choose these sheets over standard Torlon PAI for their excellent electrical insulating properties.
Often used for circuit-breaker housings, manifolds, and semiconductor components, Ultem PEI offers excellent electrical-insulating properties.
Vespel® polyimide offers excellent strength, even at extreme temperatures.
This film conducts electricity to prevent the buildup of static charges.
Kapton® polyimide film is an excellent electrical insulator.
Because this film dissipates heat, it is often used for printed circuit boards and power supplies.
Stronger than PTFE, PVDF offers good chemical resistance. Comparable to Kynar and Solef, it’s widely used for pump parts, tank liners, and seals.
When excellent chemical resistance is combined with an ability to hold tight tolerances, the result is PPS—a material that’s widely machined into parts for chemical-processing applications. It is comparable to Techtron and Ryton.
Widely used to make parts that require autoclaving, polysulfone is a hard, rigid material that’s easy to machine and thermoform. It maintains its physical properties when heated, even when exposed to steam.
Offering excellent resistance to shock, PPSU is frequently fabricated into vehicle parts and machine components that are subject to vibration. It withstands higher temperatures than polysulfone and can handle repeated autoclaving cycles.
Cast acrylic is easier to machine than extruded acrylic. It's comparable to Lucite and Plexiglas® Acrylic.
A static-dissipative coating on this cast acrylic prevents electrostatic discharge from damaging sensitive electronic equipment.
When compared to uncoated cast acrylic, this clear-coated cast acrylic is 45 times more scratch resistant.
This extruded acrylic offers similar performance as cast acrylic at a lower cost.
Laminate or mold this plastic film onto credit card signing screens, signs, and other surfaces for a see-through protective layer that won’t scratch.
Modified for increased impact strength over other types of acrylic, this acrylic is often used for skylights and outdoor signs.
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.
At only half the weight of glass, polycarbonate maintains excellent impact resistance across a wide temperature range. It's commonly known as Lexan, Hyzod, Tuffak, and Makrolon.
With a clear coating that provides protection from abrasion, UV light, and harsh cleaners, this polycarbonate is often used to create transit shelters and equipment shields.
Enhanced UV resistance makes this polycarbonate better than standard polycarbonate for outdoor use.
This polycarbonate has a static-dissipative coating that prevents electrostatic discharge from damaging sensitive electronic equipment.
Often used in security doors and windows to protect against forced entry, this laminated polycarbonate is nearly impenetrable.
Because PVC resists acids and alkalies, it is often used in tanks and chemical-processing applications where visibility is essential.
PETG can be formed into complex shapes without sacrificing durability.
Stronger and more chemical resistant than FEP and PFA film, ETFE film resists cracking over time.
Polyester absorbs almost no moisture and resists swelling in wet environments. It is also known as PET and PETE.
A static-dissipative coating on this polyester film prevents electrostatic discharge from damaging sensitive electronic equipment.
Widely used as shipping tubes, this cellulose is also known as butyrate.
Resistant to scratches and scuffs, mirrored acrylic is an economical alternative to mirrored polycarbonate.
Mirrored polycarbonate resists damage caused by impact.
A good all-around choice, Garolite G-10/FR4 is strong, machinable, and electrically insulating. It meets UL 94 V-0 for flame retardance.
A good all-around choice, Garolite G-10/FR4 is strong, machinable, and electrically insulating. It meets UL 94V0 for flame retardance.
These rectangular tubes are flame retardant, machinable, and electrically insulating.
Stronger than Garolite CE with better electrical-insulating properties, Garolite XX is often fabricated into low-cost electrical components.
These Garolite CE sheets and bars are often fabricated into parts where high strength is not required.
Garolite CE is often fabricated into parts where high strength is not required.
Graphite is added to this Garolite CE to provide a slippery surface that reduces friction and makes this material conductive.
Offering higher strength and better heat resistance than Garolite G-10/FR4, Garolite G-11 is suitable for continuous use in elevated temperatures.
Offering higher strength and better heat resistance than Garolite G-10/FR4, these Garolite G-11/FR 5 sheets are suitable for continuous use in elevated temperatures. With a black coating that reduces static electricity, these sheets are good for use in solder pallets, automated test equipment, electronic assembly workstations, and other applications where static buildup could damage your equipment.
Often used for terminal boards, electrical housings, end plates, and structural components in high temperatures, these sheets are a flame-retardant version of Garolite G-11. All are stronger and resist heat better than Garolite G-10/FR4.
A flame-retardant version of Garolite G-11, these tubes are commonly used to make bushings, standoffs, and spacers for areas with high temperatures. All are stronger and resist heat better than Garolite G-10/FR4.
Using nothing more than standard high-speed steel tooling, Garolite LE can be machined into intricate parts.
Resisting heavy impacts and temperatures up to 500° F, these Garolite sheets are used in machinery such as turbine bearings and downpipe gaskets.
Used in turbine bearings, downpipe gaskets, and other machinery, these Garolite tubes withstand heavy impacts and temperatures as high as 500° F.
Garolite G-7 withstands temperatures up to 425° F—higher than any other grade of Garolite. While not as strong as Garolite G-9 sheets, these sheets and bars offer better arc resistance in dry environments and a higher level of electrical insulation.
Choose these Garolite G-7 rods for their high heat tolerance—they withstand temperatures up to 425° F. While not as strong as Garolite G-9, they offer better arc resistance in dry environments.
Use Garolite G-10 in place of Garolite G-10/FR4 for applications that are sensitive to halogen, such as in nuclear plants. It's strong, machinable, and electrically insulating.
Frequently called electrical-grade Garolite, this Garolite G-9 is strong, electrically insulating, and arc resistant in dry environments.
Machine these angles into arc barriers, switch mounts, and components for circuit breakers and electrical equipment. They resist carrying electric currents in dry or humid areas, even when exposed to sudden electric discharge.
Rated for temperatures down to -415° F, this Garolite G-10 CR performs better in cryogenic applications than other glass epoxies.
Rated for temperatures down to -450° F, this Garolite G-10 CR performs better in cryogenic applications than other glass epoxies.
More electrically insulating than Garolite XX, these tubes are often machined into insulating washers, bushings, transformer spacers, and parts of terminal boards.
An alternative to wood in structural applications, FRP fiberglass is strong and lightweight.
Offering excellent arc and track resistance, this GPO3 fiberglass is often used for electrical applications in humid environments.
Unlike similar U-channels, these GPO3 fiberglass hat channels have flanges for mounting to flat surfaces. Use them to route and insulate wire in humid environments.
Use these round GPO3 fiberglass tubes for electrical applications in humid environments.
Route and insulate wire using these square fiberglass tubes, which fit better along edges and around corners than round tubes.
SG-200 fiberglass withstands temperatures up to 410° F—higher than any of our other fiberglass raw materials. It’s also stronger than FRP fiberglass and easy to machine.
Made with a flame-retardant resin, this FRP fiberglass meets ASTM E84 Class A.
This FRP fiberglass is made with a chemical-resistant resin that stands up to harsh environments.
With more than twice the heat tolerance of standard FRP fiberglass, this material withstands temperatures up to 370° F.
Known for its use in the aerospace industry, where a balance of weight and strength is critical, carbon fiber is now often machined into panels for structural framing, machinery components, and robotics.
Often used in place of aluminum for structural frames, machinery components, and robotics, these tubes are lighter in weight and almost as rigid.
A layer of foam is sandwiched between two pieces of carbon fiber to make a featherweight material that's even lighter than standard carbon fiber.
Reinforce structures with these rods—they weigh less than aluminum while remaining strong and almost as rigid.
Fit these lightweight tubes inside each other to create adjustable tubes for structural framing, machinery components, and robotics.
Mount these lightweight half rounds on flat surfaces to reinforce frames and structures. Carbon fiber is often used in place of aluminum because it weighs less but is almost as rigid.
Mount these lightweight tubes to flat surfaces in place of aluminum to create structural frames, machinery components, and robotics.
Often used to make railings, edge covers, and other structural framing parts, these carbon fiber U-channels add stiffness and strength to applications without adding a lot of weight.
Lighter than aluminum while remaining rigid, these angles are often used as brackets in structural framing, machinery, and robotics.
Layers of fibers alternating in four directions makes this carbon fiber stiff at the corners and edges, so it stands up to twisting forces.
Often used for structural framing, machinery components, and robotics, these carbon fiber tubes are as stiff as steel yet a fraction of the weight.
Almost as stiff as steel and a fraction of the weight, these carbon fiber sheets are often used for structural framing, machinery components, and robotics.
Often used to build frames and structures, these lightweight sheets combine the strength and stiffness of carbon fiber with the impact resistance of Kevlar.
Hard fiber is the easiest composite to machine, making it good for creating custom parts. Also known as vulcanized fiber.
Also known as fishpaper.
With an aramid honeycomb core sandwiched between carbon fiber or fiberglass for rigidity, these panels are strong, but lightweight, and won’t conduct heat. Often used as wall panels in structural and insulating applications, they’re a lightweight alternative to solid composite and aluminum honeycomb panels.
Kevlar is a super-tough material that stands up to wear and abrasion.
Originally designed for the automotive and aerospace industries, these PAEK and carbon fiber sheets are a substitute for metal because they’re as light as aluminum and as strong as a nickel alloy.
The most commonly used 3D printing material, these PLA filaments make detailed parts at a low melting point, so they won’t warp as they cool, rarely clog nozzles, and don’t require a heated printer bed.
Often used to monitor UV exposure and test UV curing and sterilization equipment, parts made from these filaments change color when exposed to the sun or UV lights.
Bumps, scrapes, and falls won’t damage these tough ABS filaments. Known for their durability, they absorb impact without cracking or breaking, and won’t degrade when heated. Use them to print tool handles, storage cases, and other parts that are handled or dropped frequently.
Best for outdoor use, parts made from these ASA filaments are UV resistant, so they won't warp or crack from prolonged sun exposure. They’re also durable, so they absorb impact without breaking and won’t degrade when heated.
Create strong, durable parts that carry heavy loads and absorb blows and other impact without cracking or breaking. Made of polycarbonate, these filaments are stronger and resist heat better than other impact-resistant filaments, such as those made from ABS or ASA.
Build parts and prototypes from these filaments using Dremel fused filament fabrication (FFF) 3D printers.
Parts made from these PAEK filaments, a family of materials that includes PEEK and PEKK, remain strong in high temperatures and hold up to wear from repeated use.
Often used to make parts that will be used near ovens, engines, and other hot machinery, these PEI filaments remain strong and rigid in temperatures that would soften most plastic.
Sterilize your printed parts without them expanding, deforming, or weakening. These PSU filaments resist steam and heat, so you can sterilize them in an autoclave.
Print tough, long-lasting parts that won’t scratch or wear out from constant motion and friction, such as gears and washers.
Parts printed with these polyester filaments absorb less moisture than other types of plastic, making them ideal for use in wet or humid environments.
Fabricate custom bottles, packaging, and other parts for chemical processing.
Used to print tooling, fixturing, and brackets, these resins create high-performance parts that are strong, stable, and rigid.
These pellets resist swelling when exposed to water, making them suitable for use in wet environments. Melt and mold them into desired shapes.
With a low coefficient of friction, these pellets won't wear away from abrasion that’s often caused by contact with moving parts. Melt and mold them into desired shapes.
Absorbing impact without cracking or breaking, these plastic pellets are molded into parts that endure bumps, scrapes, and falls.