Strong and Light 3K Rollwrapped Carbon Fibre Tube Hollow OD-30*ID-28* L 2200mm

Strong and Light 3K Rollwrapped Carbon Fibre Tube (Hollow) OD-30*ID-28* L 2200mm

For lightweight aerodynamic parts, this plain weave carbon fiber features a 3k tow (3000 filaments per fiber) and is a commonly selected fabric style, delivering uniform strength in both horizontal and vertical directions. It is the most popular, most common carbon fiber. It gives to the plate a classic carbon fiber look. 3K is the workhorse of carbon fiber.

The strength of carbon fiber reinforced polymer is 6-12 times of steel, and its density is less than 1/4 of steel. Based on their superior mechanical properties, they can be used to replace or substitute aluminum or steel tubes in a wide range of projects.

These 3k twill glossy Carbon Fiber Tubes are great for reinforcing scale models, toys, recreational models, or other arts and crafts. Use them in the wings, fuselage, or other parts of the model.

Carbon fiber tubes can be used for the following applications:

• Drive Axle
• Telescopic manipulator
• Tripod
• Cleaning poles
• Robotics and UAV
• Steering columns
• Boat, yacht mast..etc

Features

• Made of carbon fiber material
• very strong and light.
• High tensile strength
• corrosion resistance and shock resistance.
• High toughness
• High Modulus for superior rigidity
• Fatigue resistance for durable strength

Q: How strong is a 3K Carbon Fiber Tube?

A: A 3K Carbon Fiber Tube is exceptionally strong, with tensile strengths surpassing 200 GPa (gigapascals). This enables it to withstand immense stress and force before failure. Its strength primarily comes from tightly woven carbon fibers that provide optimal reinforcement. These fibers are further enhanced by a resilient resin matrix, ensuring additional strength and rigidity for the tube.

Q: Are there any limitations to the use of 3K Carbon Fiber Tubes?

A: While 3K Carbon Fiber Tubes offer several advantages, there are also limitations to consider. Firstly, they are more expensive to produce compared to traditional materials like aluminum or steel, primarily due to the cost of carbon fiber fabric and resin. Secondly, repairing them can be challenging because the fibers are integrated into the resin matrix, making it difficult to replace individual fibers if damaged. Lastly, they can be brittle under certain conditions, such as high impact or stress, potentially resulting in cracking or fracturing.