Carbon fibre Pultruded Square Box Tube 8mm ( 7mm )
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Carbon fiber pultruded square tubes are composite structures manufactured using a pultrusion process, which is a continuous method of producing fiber-reinforced polymer composites. Pultrusion involves pulling carbon fiber strands through a resin bath and then passing them through a heated die to shape and cure the composite material into a solid structure. The resulting carbon fiber tubes have a square cross-sectional profile, offering excellent structural integrity. These tubes are favored in industries requiring high strength-to-weight ratios, as carbon fiber is known for its lightweight yet exceptionally strong properties, outperforming materials like aluminum and steel in various applications.
SPECIFICATION
Weight and Dimensions
Length | 2000 | mm |
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Wall Thickness | 0.5 | mm |
Width | 8 | mm |
Height | 8 | mm |
ID Tolerance (mm) | 0.25 | mm |
OD Tolerance (mm) | 0.25 | mm |
Product Data
Colour | Black | |
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Resin Matrix | Epoxy | |
Construction | Pultrusion | |
Appearance | UD (Matt) |
Fabric Specification
Fibre Orientation | Unidirectional |
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Mechanical Properties
Tensile Strength (Lengthways) | 400 - 500 | MPa |
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Tensile Modulus (lengthways) | 28-40 | GPa |
Tg Onset (DMA) | 80 | °C |
General Properties
Gross Weight | 0.056 | kg |
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One of the key advantages of carbon fiber pultruded square tubes is their impressive mechanical performance. Carbon fiber has an extremely high tensile strength, meaning it can withstand substantial stretching forces without deforming or breaking. This makes it ideal for load-bearing structures such as aerospace components, automotive frames, and sporting equipment. Additionally, the square profile of the tube offers geometric advantages for stiffness and ease of assembly in structures, as square tubes resist bending and torsional forces more effectively than round tubes in certain applications, making them versatile in engineering designs.
Another benefit of carbon fiber pultruded square tubes is their corrosion resistance. Unlike metals, carbon fiber is not susceptible to rust or corrosion from environmental factors such as moisture, chemicals, or UV exposure. This makes these tubes particularly valuable in harsh environments, such as marine applications or in chemically aggressive industrial settings. Furthermore, carbon fiber composites do not conduct electricity, which can be beneficial in scenarios where electromagnetic interference or electrical insulation is a concern, such as in telecommunications or electrical infrastructure.
Carbon fiber pultruded square tubes are also customizable in terms of their resin matrix and fiber orientation, allowing engineers to tailor the properties of the tubes to specific needs. For instance, the resin used can be modified to enhance impact resistance, heat resistance, or flame retardancy. Meanwhile, the orientation of the carbon fibers can be adjusted to optimize the mechanical properties in different directions, whether the application requires more strength along the length of the tube or more resistance to torsional stresses. This flexibility, combined with the inherent advantages of carbon fiber, makes pultruded square tubes an excellent choice for a wide range of high-performance applications.