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  • Filament Wound Carbon Fiber Tube
  • Filament Wound Carbon Fiber Tube
  • Filament Wound Carbon Fiber Tube

 

Filament Wound Carbon Fiber Tube

Carbon Fiber Poles
  • High Strength, Ultra-Lightweight, Perfect Performance Carbon Fiber Tubing
  • Great for torsion application
  • Beautiful finish

 

Filament wound carbon fiber tubes have very long continuous fibers which add to the strength and stiffness of the structure. The manufacturing process allows for longer length carbon fiber tubes than our standard roll wrapping process. If you are looking for a higher temperature, we can build almost all of these tubes with a different resin system good for up to 400F. The angles used in the winding process makes the final product an excellent choice for torsion applications.  Available in a gloss finish, a sanded matte finish, or with a twill over wrap.
Product Filament Wound Carbon Fiber Tube
Material Standard Modulus / Intermediate Modulus / High Modulus / Ultra High Modulus ( Optional )
Surface Natural / Polished
Pattern Multiple Axial Fiber
MIN OD 7.2mm
MAX OD 123mm
MAX Length 1800mm

OD Tolerance
Natural Tubing: 0.3~0.5mm
Polished Tubing: ±0.02mm ~ ±0.05mm
Painted Tubing: ±0.05mm

 

Hot tags: Filament Wound Carbon Fiber Tube, China, manufacturers, suppliers, factory, customized, high quality

The filament winding process involves two primary components. A stationary steel mandrel rotates, while a carriage arm travels horizontally up and down the length of the mandrel. As the mandrel turns, the rovings wrap around it to form a composite layer over the mandrel’s surface. Before encountering the mandrel, the fibers are impregnated in a resin, which later solidifies with the fiber to create the final composite material.

 



Lay-Up Orientation
90°
±45°
Other Customized Multiple Axial Angles

 

A big advantage of filament winding is that it uses continuous fibers which leads to very good material properties for both strength and stiffness.

1. High Strength, High Stiffness, Light Weight
2. Anti-Corrosion
3. Low Thermal Expansivity
4. Good Fatigue Resistance
5. Low Maintenance Cost
6. Multiple Axial Angles can be designed to reach the best performance

 


- Industrial Automation
- Aerospace

 

 

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