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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.
With more than twice the heat tolerance of standard FRP fiberglass, this material withstands temperatures up to 370° F.
This FRP fiberglass is made with a chemical-resistant resin that stands up to harsh environments.
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.
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.
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.
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.
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.
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.
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.
Using nothing more than standard high-speed steel tooling, Garolite LE can be machined into intricate parts.
Easily turn these rectangular tubes into parts for transformers and switchgears using high-speed tooling.
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.
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.
More electrically insulating than Garolite XX, these tubes are often machined into insulating washers, bushings, transformer spacers, and parts of terminal boards.
Mix these additives with melted plastic, epoxies, or adhesives to make parts stronger and more wear resistant without adding much weight.
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 resin-free fabrics to reinforce or repair existing composites as well as create new composites. Mold custom-shaped composite parts by layering your choice of fabric with an epoxy.
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.
The PTFE coating makes these fiberglass sheets nonstick and chemical resistant.
These sheets are 50% more tear resistant than other fiberglass fabric sheets.
With larger openings than porous fiberglass fabric, these sheets allow for more air circulation in drying applications.
Pores allow for air circulation, so these sheets are often used in drying applications.
These sheets can be grounded to reduce static electricity.
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.
Resistant to sparks and molten metal spatter, this fabric withstands temperatures up to 1000° F. It's often used for curtains, blankets, and gaskets.
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.
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.
This abrasion-resistant fabric sheds molten metal spatter when placed at an incline of 15° or greater. Use as a welding curtain.
This sleeving withstands temperatures over 1000°F, such as in refineries.
A blend of Aramid and fiberglass gives this sleeving excellent abrasion resistance. It can withstand temperatures up to 650° F
This sleeving withstands temperatures up to 390°F and is often used to insulate connections in transformers and relays. It prevents electricity and heat from dissipating from wire and cable.
A silicone rubber coating on this fiberglass sleeving protects against sparks and molten metal splash.
Made from thicker and denser fiberglass than standard spark-resistant sleeving, this sleeving is more abrasion resistant and provides better insulation. The silicone rubber coating protects against sparks and molten metal splash.
Add a layer of insulation to prevent electricity and heat from dissipating from wire and cable.
A specially formulated silicone rubber coating allows this sleeving to stretch over items during installation; it then tightens around its contents for a secure fit.
Protect cable, hose, and pipe in high temperature environments—this sleeving withstands temperatures over 450° F. It stretches to fit over items for easy installation, then tightens around its contents for a secure fit.
Made of aluminum with a fiberglass liner, this sleeving reflects heat away from contents and withstands temperatures up to 390°F. A slit along the entire length makes it easy to install around wire, cable, and hose without disconnecting them.
Silicone rubber coats this fiberglass sleeving to shed sparks and molten metal splash. It has a slit along the entire length so it easily wraps around wire, cable, and hose without disconnecting them.
This sleeving reflects heat away from contents and withstands temperatures up to 900°F. The corrugated construction gives it impact and abrasion resistance similar to conduit, but with more flexibility.
Protect fiber optic cable with this small-diameter conduit.
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.
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.
Able to withstand temperatures up to 1000° F, these seals have a fiberglass cover and core that resists most refrigerants, salts, and grease.
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.
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.
These lightweight flexible fiberglass sheets are typically used to insulate equipment and appliances.
Made of flexible composite paper, these sheets won't shrink or lose shape in the high temperatures of air furnaces and hot water tanks.
This common insulation material is typically used on hot and cold water lines and in process piping.
Hook-and-loop fasteners make it easy to install, remove, and reuse this flexible insulation. Use on steam, hot water, and process pipes and fittings.
Also known as batts, these fiberglass sheets and strips are used to insulate walls, ceilings, and floors.
Wrap rectangular and round ductwork with this flexible insulation.
Insulate rectangular ductwork.
Layers of resin and fiberglass strands are molded for bar grating with excellent impact resistance that provides better traction than metal bar grating.
Narrow openings prevent items from falling through this grating and make it easier for carts to roll across.
Formulated to protect against odors, stains, and degradation, this grating is often used in food-processing areas.
These lightweight fiberglass treads are corrosion resistant, nonconductive, and nonmagnetic.
Screw nosing into place to protect the front portion of the stair and provide a slip-resistant surface.
Protect stairs from wear or provide a new stair surface on worn stairs.
This solid fiberglass grating is good for wheel traffic and areas where you don't want small items and debris to fall through.
With a raised disc surface that can be felt with feet and canes, these tiles alert individuals with visual impairments to an upcoming intersection or an edge of a walkway.
Add permanent slip resistance to floors, ramps, stairs, and docks with these solid plates.
Cover wallboard, masonry, and studs with these durable, washable, and mildew-resistant panels.
Blankets are for intermittent contact with flames and hot surfaces.
These rolls are an economical choice for protecting more expensive filters that catch finer particles.
These pads are an economical choice for protecting more expensive filters that catch finer particles.
Create a custom-sized filter or protective layer for expensive filters.
These filters are typically used as replacements in HVAC equipment.
With tight pleats, these filters have a larger surface area than filters with standard pleats for improved efficiency and an even longer life. These filters strike a good balance of filtering efficiently while allowing airflow, making them a more cost-effective option than higher rated filters.
The rigid frame on these filters withstands fluctuations in airflow, such as those created by variable air volume systems.
Control dust and contaminants in hospitals, laboratories, and other demanding environments. These filters capture particles down to 0.3 microns.
Multiple panels maximize filtering surface area for long service life.
The deep pockets on these filters maximize filtering surface area with minimal airflow resistance.