Carbon Tube

Inner Diameter * Outer Diameter(mm) Inner Diameter * Outer Diameter(mm) thickness surface grain
4×6 4×5 10-1200mm Glossy/Matte Plain/twill/unidirectional
5×7 5×6
6×8 6×7
7×9 7×8
8×10 8×9
9×11 9×10
10×12 10×11
12×14 12×13
14×16 14×15
16×18 16×17
17×19 17×18
18×20 18×19
20×22 20×21
21×23 21×22
22×24 22×23
23×25 23×24
24×26 24×25
25×27 25×26
26×28 26×27
27×29 27×28
28×30 28×29
30×32 30×31
32×34 32×33
34×36 34×35
36×38 36×37
38×40 38×39
40×42 40×41
42×44 42×43
45×47 45×46
46×48 46×47
48×50 48×49
Category:

Description

Carbon tube specification

Material: 100% carbon fiber, fiberglass, fiberglass and carbon fiber:

Surface: 1k/3k/6k plain weave, twill, unidirectional, matte, glossy, painted, pasted logo, etc.

Characteristics: high strength, high modulus, light specific gravity, high temperature resistance,

corrosion resistance, acid and alkali resistance, oxidation resistance, creep resistance,

UV resistance, small thermal expansion coefficient, etc.

Advantages: It can operate under high temperatures and harsh environments,

is durable, is extruded, and is not prone to deformation and aging;

Production: high temperature solidification molding, subsequent processing,

machine grinding, CNC cutting and other procedures;

1. Product specifications and sizes are customized according to customer requirements;

2. Special-shaped products must be provided by the customer with 3D drawings or product samples;

3. Molds are required for special shaped products.

Carbon Tube Application

Carbon fiber tubes find a wide range of applications across various industries due to their unique combination of strength,

light weight, and durability. Some common applications of carbon fiber tubes include:

  1. Aerospace: Used in aircraft and spacecraft components to reduce weight without compromising strength, contributing to fuel efficiency and improved performance.
  2. Automotive: Employed in the manufacturing of lightweight and strong components, such as car frames, body panels, and interior structures, to enhance fuel efficiency and overall vehicle performance.
  3. Sports and Recreation: Utilized in the construction of bicycle frames, golf club shafts, fishing rods, and other sports equipment to provide a lightweight yet robust solution.
  4. Marine Industry: Applied in the manufacturing of boat and yacht components, such as masts, hull reinforcements, and outriggers, to enhance strength while minimizing weight.
  5. Industrial Applications: Used in various industrial settings for structural supports, robotics, and machinery components, where high strength and low weight are crucial.
  6. Renewable Energy: Employed in wind turbine blades and other renewable energy structures
  7. due to their high strength-to-weight ratio, helping improve the efficiency and reliability of renewable energy systems.
  8. Medical Devices: Utilized in the production of lightweight and rigid components for medical devices such as braces, prosthetics, and imaging equipment.
  9. Construction: Applied in the construction industry for reinforcing structures, providing strength, and reducing overall weight in certain applications.
  10. Telecommunications: Used in the manufacturing of lightweight yet sturdy components for antennas and communication towers.
  11. Hobbyist and DIY Projects: Popular among hobbyists and DIY enthusiasts for various projects, including model aircraft, drones, and custom-made structures.