We will reply to your message within an hour.
More
Soft and easy to install, this insulation restricts absorption of water, air, and gas. It is often used on cold and hot water lines and refrigeration lines.
This common insulation material is typically used on hot and cold water lines and in process piping.
Less flexible than rubber foam, this insulation restricts absorption of water, air, and gas. It is typically used in plumbing applications
Shield against extreme heat with these flexible ceramic strips. They are often used to insulate hose, cables, and process piping.
These insulation tubes and sheets meet ASTM E84 standards for flame and smoke.
Lightweight and super thin, these fiber-reinforced silica aerogel sheets and strips flex into tight spaces other insulation can't. Use on process piping and in power-generating applications.
Superior in strength and durability, these thin strips insulate as well as protect personnel from accidental contact with hot pipes. Use for exhaust, hot water, and process pipes.
Able to withstand temperatures as low as -290° F, these super-thin, lightweight sheets are made of fiber-reinforced silica aerogel that can flex into tight spaces other insulation can't. Use in process piping and power-generating applications.
Protect insulation from light impact and moisture with this durable PVC jacketing.
Guard insulation from heavy impact and chemical exposure. This metal jacketing is corrosion resistant and often used outdoors.
The most common of our flexible high-temperature sheets, these are used to insulate furnaces.
These durable sheets resist compression and are often used in oven and power-generating applications.
These lightweight flexible fiberglass sheets are typically used to insulate equipment and appliances.
Made of high-strength calcium silicate, these durable sheets withstand high temperatures and are often used in power-generating applications.
The perforated vinyl facing allows moisture to evaporate and resists cracking and fading. These flexible sheets are good for insulating large enclosures.
Thinner than most rigid insulation for furnaces and other high-heat applications, these millboard sheets are also used for gasket fabrication.
Even when subjected to heavy compression, these rigid polyimide sheets won't crack.
Made of flexible composite paper, these sheets won't shrink or lose shape in the high temperatures of air furnaces and hot water tanks.
Designed for fluctuating, high-temperature applications, these semi-rigid sheets are typically used in furnaces and fire protection applications. They experience very little shrinkage at high temperatures, but the brittle material can be somewhat difficult to work with.
Commonly used in furnaces and engine compartments, these flexible silica fiber sheets resist corrosive acids.
Typically used in ovens and furnaces, these are the most efficient of our rigid high-temperature insulation sheets. Please note that they require special care when installing since the crumbly material is difficult to work with and will crack easily. Sheets lose strength over time and are intended to be installed behind another facing or insulation material.
Wet these rigid sheets and they become formable. They can be molded multiple times until exposed to heat, which causes them to become rigid again.
The lowest-density insulation we offer, these sheets are made of lightweight melamine foam.
Often used in high-humidity applications for its low moisture absorption, this flexible paper insulation is made of inorganic materials. It’s typically used in appliances and electrical devices.
Insulate high-vacuum furnaces and other low-oxygen vacuum enclosures with these flexible sheets.
Insulate high-vacuum furnaces and other low-oxygen vacuum enclosures with these rigid sheets. They withstand higher temperatures when used in a vacuum and can be machined through sawing or drilling.
The fiberglass facing on these flexible silicone foam sheets protects against highly abrasive conditions and resists tearing.
Protect equipment and surfaces from radiant heat.
Insulate rectangular ductwork.
Wrap rectangular and round ductwork with this flexible insulation.
Typically used as duct wrap, these flexible sheets consist of polyethylene bubbles covered with aluminum polyester foil that prevent 96% of heat from radiating into or away from duct. Use on rectangular and round ductwork.
Also known as fire wrap, these flame-resistant sheets meet ASTM E84 0/0 for flame and smoke and create a fire barrier around rectangular and round ductwork. They are often used to wrap kitchen grease exhaust ducts and air ducts.
These sheets resist the absorption of water, air, and gas and are widely used in cold-storage and packaging applications.
Use these sheets in operating temperatures below 32° F, such as cold-storage applications.
Made of rugged PVC foam, these rigid sheets absorb impact and restrict the absorption of water, air, and gas. Use in applications with operating temperatures below 32° F.
Also known as batts, these fiberglass sheets and strips are used to insulate walls, ceilings, and floors.
Attach these hanger studs to a flat surface, then press your insulation sheets onto the spikes and secure with a washer.
Silicone maintains its flexibility across a wide range of temperatures.
These sheets and strips will bounce back to shape, even after extended compression.
Even after extended compression, these sheets and strips will bounce back to shape.
Prevent the spread of flames with these self-extinguishing silicone foam sheets and strips.
A thin layer of aluminized fiberglass on this silicone foam reflects heat to protect sensitive equipment.
Seal and damp vibration around high-temperature food-service equipment with these silicone foam sheets and strips.
Protect sensitive equipment from heat buildup with this silicone foam. These sheets are commonly used to fill gaps and damp vibration in computers, battery installations, and pipe assemblies.
In addition to being lighter in weight than silicone foam, this polyimide foam also remains soft and conformable across a broader temperature range.
Seal and damp vibration in high-temperature equipment with these rings.
EPDM is blended with neoprene and SBR to create a general-purpose foam that offers good resistance to water and wear.
In addition to having good resistance to water, sunlight, and oxidation, these neoprene foam sheets and strips resist swelling when they come into contact with oil.
Just like the material found in wetsuits, these neoprene foam sheets are encased in nylon fabric for additional protection from wear caused by rubbing and abrasion.
Made of EPDM foam, these sheets and strips have the best resistance to water, sunlight, and oxidation of all the foam we offer.
Because this natural rubber foam readily bounces back to shape after compression, it’s a good choice for repetitive sealing applications, such as on doors.
The original mouse pad material. These natural foam rubber sheets have a crisscross-textured skin on one side for a nonslip gripping surface and a layer of polyester fabric on the other side that allows objects to smoothly slide across it.
These vinyl foam sheets and strips are so conformable that once they're compressed they won't fully spring back. Use them to fill gaps and seal uneven surfaces.
Durable enough to be used in seat cushions, this flexible polyurethane foam provides gentle cushioning support.
When these sheets and strips are exposed to flames, the surface chars to create a protective barrier that prevents melting, dripping, and the possibility of spreading fire.
Even after extended compression, these high-performance polyurethane foam sheets and strips bounce back to shape faster than any other foam we offer. Also known as Poron urethane, they also stand up to wear caused by rubbing and scraping.
These dual-material foam sheets and strips have ultra-soft polyurethane foam on one side and chemical-resistant polyethylene foam on the other. They are widely used in packaging applications to absorb shock and damp vibration.
Commonly called memory foam and Confor, these sheets and strips have the best cushioning qualities of all the foam we offer.
Good for tough vacuum-sealing and low closure-force applications, these polyurethane foam sheets and strips have open/closed cells to keep water, air, and gases from being absorbed when they are compressed at least 25%. Even after extended compression, all bounce back to shape faster than other foams we offer.
Often used for impact pads, gaskets, and enclosure seals, these polyurethane foam sheets and strips absorb shock better than other resilient foam.
These sheets and strips are made of cross-linked polyethylene, so they are stronger and more chemical resistant than other types of polyethylene foam.
Also known as Ethafoam.
Made of FDA-listed materials, these polyethylene foam sheets are often used as packaging for food products to absorb shock and damp vibration.
Often used as padding in helmets, gloves, and boots, this super-strong EVA foam absorbs shock and resists tearing better than other types of foam.
Exceptionally strong, this lightweight ionomer foam offers excellent resistance to impact, UV light, and water. It stands up to wear caused by rubbing and scraping and is often used on bumpers and buoys.
Use these foam half rounds as a cushioning bumper.
The open top allows these foam U-channels to slide over and cushion an edge.
There are hundreds of cushioning pillows in every foot of these pliable mesh sheets. They're often used as a protective liner in drawers and cabinets and anywhere a nonskid surface is required.
Also called plucking foam, these scored foam sheets allow you to pull out individual cubes for custom-shaped packaging.
This foam meets UL fire extinguishing specifications. It's made from a blend of Buna-N, neoprene, and vinyl to offer offer good resistance to oil.
Made of Epichlorohydrin, an alternative to Buna-N, these foam sheets have excellent resistance to oil.
An economical alternative to Viton® fluoroelastomer foam, these semi-rigid nylon foam sheets offer good resistance to a wide range of chemicals.
Offering excellent resistance to corrosive environments, these Viton® fluoroelastomer foam sheets and strips stand up to a wide variety of chemicals, fuels, and oils.
Protect electronic components from electrostatic shocks and chemicals while safeguarding them from bumps and drops during shipping and storing.
Cushion electronic components from impact as you protect them from electrostatic shocks during shipping and storing.
These polyurethane foam egg-crate sheets divert static electricity to protect sensitive equipment from damage.
Similar to a sponge, this open-cell foam absorbs and holds up to 30 times its weight in liquid.
Commonly used as curtains and in sealing applications.
Similar to plaster, these adhesive-impregnated sheets become moldable when water is added and harden as they dry. They can be used in sealing, insulating, and covering applications.
With larger openings than porous fiberglass fabric, these sheets allow for more air circulation in drying applications.
The PTFE coating makes these fiberglass sheets nonstick and chemical resistant.
These sheets can be grounded to reduce static electricity.
Pores allow for air circulation, so these sheets are often used in drying applications.
These sheets are 50% more tear resistant than other fiberglass fabric sheets.
Resistant to sparks and molten metal spatter, this fabric withstands temperatures up to 1000° F. It's often used for curtains, blankets, and gaskets.
A blend of aramid and fiberglass, this fabric resists mildew and abrasion. It is self-extinguishing and won't melt, so it's often used for insulation applications.
Often used to create curtains and screens, this fabric has an aluminum foil backing that deflects radiant heat.
In addition to being oil resistant, this fabric protects against molten metal spatter when used vertically. Use as a heat shield or a welding curtain.
This abrasion-resistant fabric sheds molten metal spatter when placed at an incline of 15° or greater. Use as a welding curtain.
More flexible than standard silica fabric, wrap these sheets and strips to insulate pipes, wires, and hose. This fabric also protects against welding spatter.
Commonly used as curtains, covers, insulation, and splash shields, these sheets protect against welding spatter.
Even when exposed for as long as 2 minutes to temperatures up to 2600° F, these sheets won't ignite or melt.
Use these strips for high-temperature seals and heat insulation.
This temperature-resistant fabric is more cut resistant than Nomex.
Lighter than Kevlar, Nomex is often used for temperature-resistant garments.
Saturated with wax, these sheets also have a polyester coating on one side to resist corrosion and moisture. Protect piping and wrap irregularly shaped objects with this very flexible fabric.
This cotton fabric is treated to resist flames. Use as tarps.
This low-pile velvet cushions and damps vibration.
This Nomex aramid felt withstands temperatures three times as high as wool felt. It is chemical resistant and often used as insulation.
Made of 100% wool, this is the hardest felt we offer, yet it can still be used for polishing. It is more abrasion resistant and better at damping vibration than other felt. Includes S2-32, S2-24, and S2-20 felt grades.
This synthetic felt is an economical alternative to wool felt.
Stronger than Garolite CE with better electrical-insulating properties, Garolite XX is often fabricated into low-cost electrical components.
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.
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.
A good all-around choice, Garolite G-10/FR4 is strong, machinable, and electrically insulating. It meets UL 94 V-0 for flame retardance.
Frequently called electrical-grade Garolite, this Garolite G-9 is strong, electrically insulating, and arc resistant in dry environments.
Using nothing more than standard high-speed steel tooling, Garolite LE can be machined into intricate parts.
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.
These Garolite CE sheets and bars are 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 excellent arc and track resistance, this GPO3 fiberglass is often used for electrical applications in humid environments.
Also known as fishpaper.
Hard fiber is the easiest composite to machine, making it good for creating custom parts. Also known as vulcanized fiber.
Each pack includes one 2" circle of GPO3 fiberglass and Garolite XX, XXX, CE, LE, G-3, G-7, G-9, G-10, and G-11.
Use these sheets to quiet noisy areas and line machine enclosures. They’re made of humidity-resistant polyurethane foam and have a smooth, easy-to-clean facing.
The foil facing reflects heat. Use these sheets to quiet noisy areas and line machine enclosures. They’re made of humidity-resistant polyurethane foam.
Also known as egg crate, these sheets have peaks and valleys that absorb more sound at higher frequencies than flat-surface sheets. Use them to quiet noisy areas and line machine enclosures. Sheets are made of humidity-resistant polyurethane foam.
The polyester coating protects these humidity-resistant polyurethane foam sheets from oil exposure. Use them to quiet noisy areas and line machine enclosures.
Grommets along one side make it easy to install these sheets around your facility and quiet noisy areas. Made of vinyl-coated fiberglass, they resist abrasion, oil, dirt, moisture, and most solvents.
These polypropylene foam sheets will not degrade if exposed to moisture and occasional salt water spray. Use them to quiet noisy areas and line machine enclosures.
The best sound absorbers of all our rigid sheets, use to quiet noisy areas in your facility. They're peaked on one side for more sound-absorbing area than flat sheets. Made of melamine, they have an acrylic resin finish that resists dust and dirt and wipes clean.
Made of melamine foam, these sheets meet UL 94 V-0 for flame retardance and ASTM E84 5/20 for flame and smoke. Use them to quiet noisy areas and line machine enclosures. Sheets are peaked on one side for more sound-absorbing area than flat-surface sheets.
Furnished with two hangers for easy mounting around your facility, these sheets quiet noisy areas. Made of melamine foam, they are peaked on both sides for good sound absorption in large open spaces.
Reflect sound and block noise from traveling to other parts of your facility.
The flat edges on these square-profile seals provide more sealing surface than round-profile seals. They’re made of 98% silica to resist temperatures up to 2300° F.
Made of 96% silica, these seals resist temperatures up to 1800° F.
A tighter braid makes these fiberglass seals more durable than High-Temperature Ultra-Conformable Rope Edge Seals.
These loosely knitted fiberglass seals are more flexible, compressible, and conformable than High-Temperature Rope Edge Seals.
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.
Made from tightly woven calcium alumina silicate, these seals can handle temperatures from –300° to 1100° F.
Able to withstand temperatures up to 1000° F, these seals have a fiberglass cover and core that resists most refrigerants, salts, and grease.
These seals have a strong Inconel core covered with woven silica yarn that’s been treated to withstand temperatures up to 2300° F. They resist most refrigerants, salts, and grease.
A ceramic cover makes these seals more chemical resistant than the seals with a silica cover. They resist acids (except hydrofluoric and phosphoric), diluted alkalies, most refrigerants, salts, and grease. Seals can withstand temperatures up to 1700° F.
The PTFE coating on these fiberglass seals is slippery, so they are easier than the other seals to press fit into oven, furnace, and boiler doors. These seals resist steam, most refrigerants, salts, and grease. They can withstand temperatures up to 500° F.
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 of fiberglass, these seals are woven tighter than High-Temperature Ultra-Conformable Slotted Edge Seals for increased durability. They resist grease, oil, hydraulic fluid, and solvents and can withstand temperatures up to 1000° F.
These loosely-knitted fiberglass seals are more flexible and conformable than High-Temperature Slotted Edge Seals. They resist grease, oil, hydraulic fluid, and solvents and can withstand temperatures up to 1000° F.
The hollow construction on these seals provides better compressibility than solid rubber seals. Made of silicone rubber, they also resist water and salts.
These solid silicone rubber seals also stand up to water and salts.
Made of solid silicone foam rubber, these seals also resist water and salts.
It’s the hollow construction that makes these seals more compressible than solid seals. Made of silicone foam rubber, they also resist water and salts.
Made of vinyl rubber, these seals also resist salts and detergents. Hollow construction provides compressibility.
Hollow construction makes these seals more compressible than solid rubber seals. Made of EPDM rubber, they also resist salts.
These solid EPDM rubber seals also resist salts.
Use these Viton® fluoroelastomer rubber seals with fuels and aggressive chemicals, such as petroleum oil, hydrofluoric acid, and propyl alcohol.
To stand up to oil, grease, salts, water, and most detergents, these seals are made of Buna-N rubber.
Hollow construction makes these seals more compressible than solid seals.
These seals have solid construction.
These hollow seals offer better compressibility than solid seals.
Firmer and more durable than EPDM foam rubber seals, these seals are made of EPDM rubber. They also resist salts.
Hollow construction on these vinyl rubber seals provides better compressibility than seals with a foam core. They also resist salts and detergents.
The foam core makes these vinyl rubber seals firmer and more durable than hollow seals. They also resist salts and detergents.
Made of Viton® fluoroelastomer rubber, these seals stand up to fuels and aggressive chemicals, such as petroleum oil, hydrofluoric acid, and propyl alcohol.
Made of Buna-N rubber, these seals resist oil, grease, salts, water, steam, and most detergents.
This film is made with virgin Teflon® PTFE resins. It can handle extreme temperatures and resists most solvents.
Known for its naturally slippery surface, PTFE surpasses most plastics when it comes to chemical resistance and performance in extreme temperatures.
Made with Teflon® PTFE resins, these sheets and bars surpass most plastics when it comes to chemical resistance and performance in extreme temperatures.
Protect sensitive equipment from damaging electrical static charges.
Manufactured from Rulon PTFE, a PTFE that's modified with filler material for a super-slippery, impact-resistant surface that resists wear.
Kapton® polyimide film is an excellent electrical insulator.
This film conducts electricity to prevent the buildup of static charges.
Because this film dissipates heat, it is often used for printed circuit boards and power supplies.
Often used for circuit-breaker housings, manifolds, and semiconductor components, Ultem PEI offers excellent electrical-insulating properties.
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.
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.
Choose these sheets over standard Torlon PAI for their excellent electrical insulating properties.
Use these Torlon 4203 rods instead of standard Torlon PAI to create parts that not only withstand extreme temperatures, but also are electrical insulators.
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.
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.
Stronger than PTFE, PVDF offers good chemical resistance. Comparable to Kynar and Solef, it’s widely used for pump parts, tank liners, and seals.
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.
The addition of glass fibers makes this material more abrasion resistant than standard UHMW. It’s also known as Tivar 88.
Also known as Tivar H.O.T., this material lasts up to 10 times longer in high-temperature applications than standard UHMW.
This oil-filled material is self-lubricating for an extra-slippery surface.
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.
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.
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.
This material prevents the buildup of static charges.
An economical alternative to Delrin® acetal resin, this acetal copolymer offers similar wear resistance.
Widely used in semiconductor applications, this polypropylene meets UL flame-retardance standards.
Because this polypropylene resists swelling when exposed to water, it’s often fabricated into containers and parts for laboratory equipment.
Practically nonabsorbent, HDPE won't swell when exposed to moisture. It is denser and more rigid than LDPE, plus it's more chemical resistant.
Made of recycled HDPE plastic, these sheets are more sustainable and economical than standard marine-grade moisture-resistant HDPE sheets.
Also known as starboard, these sheets and bars won’t degrade when exposed to salt water, humidity, and UV light.
Use Noryl PPO for electrical insulating applications where moisture is a concern. It remains dimensionally stable over time, even when temperatures fluctuate.
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.
An aluminum coating on one side of this film reflects heat, so it’s widely used as an insulator and in packaging applications.
This film is often used as a separator when heating parts in an oven.
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.
Polyester resists swelling in wet environments.
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.
Because ABS maintains its toughness even after thermoforming, it’s often made into storage cases, tote trays, equipment housings, and protective gear.
Polycarbonate maintains good impact resistance across a wide temperature range. It's comparable to Lexan, Hyzod, Tuffak, and Makrolon.
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.
The addition of glass fibers to this polycarbonate increases tensile strength for use in structural applications.
This cast nylon 6 material is easier to machine than other types of nylon. It’s comparable to Nylatron and Nycast.
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.
The addition of MDS results in a nylon with exceptional wear resistance as well as self-lubricating properties.
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.
Because PVC resists many acids and alkalies, it’s widely used for tanks and in chemical-processing applications. Also known as PVC Type 1.
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.
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.
Often fabricated into signs, packaging, and light duty housings, polystyrene is easy to thermoform.
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.
Cast acrylic is easier to machine than extruded acrylic. It's comparable to Lucite and Plexiglas® Acrylic.
When compared to uncoated cast acrylic, this clear-coated cast acrylic is 45 times more scratch resistant.
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.
This extruded acrylic offers similar performance as cast acrylic at a lower cost.
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.
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.
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.
PETG can be formed into complex shapes without sacrificing durability.
The slippery surface on this FEP film prevents sticking. Use it as a release film when making molded parts.
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.
Because PVC resists acids and alkalies, it is often used in tanks and chemical-processing applications where visibility is essential.
Carbon mesh is embedded into this clear PVC film to dissipate electrostatic discharge and protect sensitive electronic equipment.
Resistant to scratches and scuffs, mirrored acrylic is an economical alternative to mirrored polycarbonate.
Mirrored polycarbonate resists damage caused by impact.
For every 1/16" of thickness, there is one layer of super-strong fiberglass cloth that stands up to high stress and flex. Use these sheets and strips as flange gaskets and anywhere heavy compression would squeeze nonreinforced EPDM out of place.
Filled with carbon black, these sheets won’t generate static charges and divert existing ones away from electronics. Use them as a conductor to protect components from static discharge.
Block out stray and unwanted light.