Products
Pultruded Fiberglass Round Tube
Pultruded fiberglass tubes have unique characteristics suitable for a wide range of applications.
Round tubes of various diameters are used in antenna housings, handles for tools (e.g., snow shovels, paint rollers, mop and broom, lawn garden tools), tree pruners, professional service tools, railing systems, telescoping tools, and flag poles.
Thanks to their low cost, lightweight, ease of handling, versatility, strength, durability, and long lifecycle, pultruded fiberglass tubes are widely used in many industries.
FRP/GRP tubes are ideal materials for reinforcement and safety access applications. It is available for smooth and gritted surfaces.
FRP/GRP tube has good insulation and ideal material for safety protection.
It's high tensile strength and corrosion resistance make it an ideal choice for corrosion prevention tools and reinforcement tools.
Pultruded FRP Tubes Process
Extruded tubes are the ideal materials for reinforcement and safety access applications. It is available for smooth and gritted surfaces.
It's high tensile strength and corrosion resistance make it an ideal choice for corrosion prevention tools and reinforcement tools.
● Fiber: E-Glass Fiber
● Fiber Content: > 60%
● Resin Content: < 40%
|
Product |
Pultruded Fiberglass Tubes |
|
Material |
E-Glass Fiber |
|
Surface |
Smooth |
|
MIN Diameter |
1.5mm |
|
MAX Diameter |
200mm |
|
OD Tolerance |
±0.2mm |
|
Max Length |
can be customized |
|
Fiber Content |
> 60% |
|
Resin Content |
< 40% |
|
Color |
Any Color |
Round Pultruded Fiberglass Tube Application
- Safety & Protection
- Outdoors Tent Pole
- Structure Support
- Garden Tools / Tool Handle
- Working Platform
Round Tubing Materials and Their Relative Advantages
Most round tubing available on the market is made of one of four materials: steel, aluminum, PVC, fiberglass, and carbon fiber. Which of these materials is most appropriate for a particular application will obviously depend upon many factors. Cost is one, but it is important to remember that cost involves more than just the price of the material itself. Installation costs, maintenance costs, and life expectancy are all important aspects to consider when comparing.
Steel
There are basically two things that make steel a common material choice, especially for structural applications. First, it is very strong, which is obviously important for these kinds of uses. Second, it is relatively inexpensive (though prices for steel are subject to a lot of fluctuation). Two potential drawbacks to steel is that it is very heavy and also easily corrodes.
Aluminum
Aluminum is a metal commonly used because of its lightweight (relative to steel) and also its corrosion resistance. It is also a good conductor of heat and electricity, which are sometimes desirable properties. In comparison to steel, aluminum tends to be more expensive.
PVC
PVC stands for polyvinyl chloride, a widely-used plastic. It is relatively strong, corrosion-resistant, and lightweight. Piping made from PVC is also much cheaper than steel or aluminum. Its weakness, relative to these other two, is strength. It isn't suitable for structural use at all.
Fiberglass
Fiberglass comes in many varieties depending upon the glass fibers used as well as the resin they reinforce. In general, though, fiberglass has the advantage of being very lightweight while also being very strong. It is, actually, stronger than steel or aluminum for a given weight of the material. It is also highly corrosion-resistant and a great thermal and electric insulator. On the other hand, fiberglass is often more expensive than steel or aluminum.
Carbon Fiber
Strictly speaking, we're thinking here of an FRP (fiber reinforced polymer) in which the fiber is carbon. In other words, it is like fiberglass except with carbon fiber instead of glass fiber. It has similar properties, though it is even stronger than fiberglass. Its biggest disadvantage is cost. It is much more expensive than any of the other materials listed here. It is also highly conductive, which can be a problem in some applications.
What's a Pultrusion Process?
This manufacturing process converts reinforced fibers and liquid resin into a fiber-reinforced plastic using a pulling method, as opposed to a pushing method used in an extrusion process.
The first step in the pultrusion process is to saturate the fibers by pulling them through a resin impregnator containing a bath made of epoxy, polyurethane, polyester, and/or vinyl ester.
Often, fillers and additives such as colorant, fire inhibitors, and UV retardants are blended into the bath to enhance the finished product.
Next, the saturated fibers enter a "pre-former" tool that squeezes out excess resin and shape the fiber reinforcements. The composite is then pulled through a heated steel die, which cures the thermosetting resin to create a solidified polymer of the intended shape and size.
Lastly, the hardened polymer is pulled toward a cutting blade so it can be cut into the desired length. Urethane pull blocks are used to prevent the finished product from cracks, distortion, and deformation during this process.
Compared to extrusion, pultruded materials demonstrate higher tensile strength because of the continuous length of reinforcing fibers -- making them lightweight yet strong.
Applications of Pultruded Fiberglass Round Tubes & Pipes
Pultruded fiberglass tubes have unique characteristics suitable for a wide range of applications.
Round tubes of various diameters are used in antenna housings, handles for tools (e.g., snow shovels, paint rollers, mop and broom, lawn garden tools), tree pruners, professional service tools, railing systems, telescoping tools, and flag poles.
Thanks to their low cost, lightweight, ease of handling, versatility, strength, durability, and long lifecycle, pultruded fiberglass tubes are widely used in many industries:
Construction and Infrastructure
Commonly used in outdoor Construction projects since they don't rot, rust, corrode, or crumble. They can be cut and shaped easily using simple tools and the low maintenance requirements often translate into a lower cost of ownership. They can be found in bridge components, corrosion-resistant guardrails, antenna housing, railway crossing arms, and highway sound barriers.
Utility and Telecommunications
The durable and non-conductive nature, as well as non-magnetic electromagnetic transparency property make pultruded fiberglass tubes ideal for use in utility poles, cross arms, and line markers, electrical lines and trunking, wastewater and water treatment components, non conductive ladder rails, and fiber optic cabling.
Tool Manufacturing
FRP can be used to create ergonomic shapes for various handheld tools or devices thanks to its safety, versatility, and reliability. Since it's non-conductive, it's often used to protect end-users from hot or electrified components.
Sporting, Recreational and Outdoor Equipment
Pultruded fiberglass tubes are used in outdoor equipment that needs to endure heavy wear and tear. For instance, outdoor furniture made with FRP can withstand prolonged exposure to moisture, sunlight, and heat.
Meanwhile, pultruded fiberglass tubes are often incorporated into sporting equipment that needs to be light, tough, and reliable (e.g., golf clubs, hockey sticks, sailing equipment, paddles, ski poles.)
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