100% 3K Rectangular Carbon Fiber Pipes with Exceptional Strength-to-Weight Ratio

제품 설명

100% 3K Rectangular Carbon Fiber Pipes with Exceptional Strength-to-Weight Ratio

Rectangular Carbon Fiber Pipes are made by compressing pre-impregnated carbon fiber prepreg. It offers exceptional strength-to-weight ratio and outstanding rigidity due to the inherent properties of carbon fiber. The rectangular shape enhances its structural integrity, making it an ideal choice for applications requiring lightweight and sturdy components. Whether in aerospace, automotive, or sports equipment, carbon fiber rectangular tubes are widely used for their superior performance and versatility.

The Carbon Fiber Rectangular Pipes have the following advantages:

1. Lightweight: Carbon fiber has a high strength-to-weight ratio, making the tube lightweight and ideal for applications where weight reduction is critical.
2. High Strength: Carbon fiber provides excellent strength, allowing the tube to withstand heavy loads and harsh conditions.
3. Stiffness: Carbon fiber tubes offer high stiffness, providing enhanced stability and minimizing deflection under load.
4. Corrosion Resistance: Carbon fiber is highly resistant to corrosion, making the tube suitable for use in corrosive
5. environments.
6. Fatigue Resistance: Carbon fiber exhibits excellent fatigue resistance, ensuring the tube's durability and long service life.

Our Advantages of Rectangular Carbon Fiber Pipes

• The factory directly offers, competitive price
• Integrity management, obtaining BV certification
• High-quality materials (choose Japanese Toray materials)
• Offer testing report, Timely delivery
• Offer processing service: Punched, drilled, sawed, sheared
• Support small batch customization
• ODM/OEM/OBM service is accepted

Application of Rectangular Carbon Fiber Pipes

Rectangular Carbon Fiber Pipes apply to umbrella bone, kite, PCB axis, suction fan, antenna, game blanket scaffold, beach mat, curtain rod, baby blanical transmission shaft, bags, fence, radome, tool handles, housing construction beams, insulation ladder, reinforcement, the bridge reinforcement and concrete, concrete floor brick masonry wall reinforcement, and chimney, tunnel, pool, strong wear screw rod, etc.

Sporting goods: skeleton model aircraft, aircraft, scooter, shaft, high-grade musical instrument accessories.

• High-tech sectors: Airbus parts, aircraft, ship, ship accessories
• Military equipment accessories
• Medical equipment accessories
• Coal mine equipment accessories
• Textile machinery, printing equipment accessories
• Chemical anticorrosive equipment accessories and all kinds of high-end machinery transmission shafts rods, etc.

Is Carbon Fibre Stronger Than Steel (in terms of strength)?

Carbon fibre is a composite material made of carbon fibres and matrix material, such as epoxy resin. The carbon fibres are incredibly strong and stiff, while the matrix material provides support and protection for the fibres. Carbon fibre has a very high strength-to-weight ratio, which means it can handle high stress or load without adding significant weight. This makes it ideal for use in lightweight, high-performance applications, such as aerospace, motorsports, and sporting goods.

On the other hand, steel is a metal alloy that is known for its strength and durability. Steel has a high tensile strength, which means it can resist tension or stretching forces, and a high compressive strength, which means it can withstand compression or squeezing forces. Steel is also relatively affordable and easy to work with, which makes it a popular choice for a wide range of applications, such as construction, infrastructure, and heavy machinery.

While carbon fibre is generally stronger than steel in terms of strength-to-weight ratio, it is not as strong as steel in terms of absolute strength. Steel is stronger than carbon fibre in terms of sheer strength, which means it can withstand higher loads or forces without breaking. This is why steel is often used in applications where strength and durability are critical, such as bridges, buildings, and machinery.

Ultimately, the choice between carbon fibre and steel will depend on the specific application and requirements. Carbon fibre is ideal for applications that require high performance, lightweight, and high strength-to-weight ratio, while steel is more suitable for applications that require sheer strength and durability.