We will reply to your message within an hour.
The addition of glass fibers makes this material more abrasion resistant than standard UHMW. It’s also known as Tivar 88.
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.
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 glass fibers to this polycarbonate increases tensile strength for use in structural applications.
This glass-filled PTFE is more rigid than standard PTFE for increased durability in high-stress applications.
A glass filler is added to this this PEEK material to offer increased durability over standard PEEK in high-stress structural applications.
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.
An alternative to wood in structural applications, FRP fiberglass is strong and lightweight.
Made with a flame-retardant resin, this FRP fiberglass meets ASTM E84 Class A.
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.
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.
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.
Also known as Macor, these glass-mica ceramic sheets and bars withstand temperatures up to 1470° F.
Machine complicated shapes and precision parts from these glass-mica ceramic sheets in a fraction of the time it would take using other types of fired ceramic.
Machine complicated shapes and precision parts from these glass-mica ceramic bars in a fraction of the time it would take using other types of fired ceramic.
Also known as Macor, these glass-mica ceramic rods withstand temperatures up to 1470° F.
Blistering temperatures won’t melt these quartz tubes, and rapid temperature shifts won’t cause them to crack.
These sheets won't deform when exposed to temperatures up to 2100° F or from drastic temperature changes.
Able to withstand temperatures up to 2100° F, this quartz glass is useful in high-temperature applications that also require optical clarity, such as high-intensity lighting, fiber-optic production, and optical lens systems.
Also known as Pyrex and Schott glass, borosilicate sheets are heat resistant, clear, and have a super-smooth surface. They're used in a range of applications, from high-temperature viewports to 3D printing.
Also called Pyrex and Schott glass, these glass rods and discs resist clouding and pitting and are highly chemical and heat resistant.
These short glass tubes can be used as glass bowls in oil dispensers.
Also called Pyrex and Schott glass, these glass tubes resist clouding and pitting and are highly chemical and heat resistant.
Commonly used as sight glass.
This glass bends like plastic but is eight times harder—it’s harder than tooth enamel but softer than quartz.
Combining the transparency of glass with the high heat resistance of ceramic, glass ceramic withstands temperatures up to 1255° F and resists rapid temperature changes.
Wire reinforcement and an acrylic coating increase this glass's impact resistance. It's often used in doors.
Often seen on mobile devices, human-machine interfaces, and other frequently touched surfaces, this aluminosilicate glass has been chemically strengthened and treated to resist bacteria, mold, mildew, algae, and fungi.
Made of aluminosilicate that’s been chemically strengthened, this glass handles more wear and tear than other glass before scratching, cracking, or chipping. It’s often seen on mobile devices and enclosure display windows.