| Parameters | ||||
| Material | Carbon fiber fabric with resin | |||
| Carbon Fiber Content | 70% | |||
| Lines | 3K or 1K, 1.5K, 6K, 12K, UD | |||
| Surface | Plain Matte | |||
| Color | Black or Red, Blue, Golden, Silver, Green or with color silk | |||
| Layer | 3K+UD+3K or Full 3K or Full UD | |||
| UD Fiber Type | T300 or T700 | |||
| UD Fiber Direction | For UD Case: (0/90)n or (0/45/90/-45)n or (0)n or (90)n | |||
| Dimensions | ||||
| Size | 400*500mm, 500*500mm, 500*600mm, 500*1000mm, 500*1200mm 600*1000mm, 1000*1000mm, 1000*1200mm and can be customed |
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| Thickness | 0.1mm, 0.2mm, 0.3mm, 0.5mm, 0.8mm, 1.0mm, 1.2mm, 1.5mm, 2.0mm 2.5mm, 3.0mm, 3.5mm, 4.0mm, 5.0mm, 6.0mm, 7.0mm, 8.0mm, 10.0mm, 15.0mm, 20.0mm, 30.0mm up to 70.0mm and can be customed |
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| Layup | Also the 3K/UD layer thickness can be customed | |||
| Packing Specifications | ||||
| Net Weight | 1.5g/cm3 | |||
| Packed Weight | Net Weight + 0.5Kg | |||
| Technical Specification | ||||
| Item | Unit | T300 Quantitative Value | T700 Quantitative Value | |
| Carbon Fiber Content | % | 70 | 70 | |
| Resin Content | % | 30 | 30 | |
| Specific Gravity | g/cm³ | 1.5 | 1.5 | |
| Tensile Strength | Mpa | 3400 | 5200 | |
| Elasticity Modulus | Gpa | 240 | 250 | |
| Shearing Strength | Mpa | 40 | 40 | |
| Poisson Ratio | 0.25 | 0.25 | ||
| Elongation | % | 1.7 | 1.7 | |
| *Carbon fiber product can work under -80 degree C to 130 Degree C, anti-corrosion and acid and alkali resistant. | ||||
Lightweight: Carbon fiber sheets are extremely lightweight, making them ideal for applications where weight is a critical factor, such as aerospace, automotive, and sports equipment.
High Strength: Despite being lightweight, carbon fiber sheets are incredibly strong. They have a high tensile strength, meaning they can withstand significant force without breaking or deforming.
Stiffness: Carbon fiber sheets exhibit high stiffness, providing excellent resistance to bending or flexing. This stiffness contributes to structural integrity and helps maintain precise dimensions in various applications.
Corrosion Resistance: Carbon fiber is highly resistant to corrosion, making it suitable for use in harsh environments where exposure to moisture, chemicals, or saltwater is a concern.
Fatigue Resistance: Carbon fiber has excellent fatigue resistance, meaning it can withstand repeated loading and unloading cycles without weakening or failing prematurely.
Temperature Resistance: Carbon fiber sheets can withstand a wide range of temperatures without significant degradation in performance. They retain their mechanical properties even at high temperatures, making them suitable for use in both extreme heat and cold.
Chemical Resistance: Carbon fiber is resistant to many chemicals, including acids, alkalis, and solvents. This chemical resistance adds to its durability and longevity in various industrial and chemical processing applications.
Electrical Conductivity: Carbon fiber is electrically conductive, making it suitable for applications where electrical conductivity is required, such as in electromagnetic shielding or electrical transmission components.
Low Thermal Expansion: Carbon fiber exhibits low thermal expansion, meaning it expands and contracts minimally with changes in temperature. This property adds to its dimensional stability and precision in various applications.
Aesthetic Appeal: Carbon fiber sheets have a distinct woven pattern and glossy finish that gives them a sleek and modern appearance. This aesthetic appeal makes them popular not only for their performance but also for their visual appeal in products like luxury cars, consumer electronics, and sporting goods.
Aerospace: Carbon fiber sheets are extensively used in aerospace applications due to their lightweight and high strength properties. They are used in aircraft components such as wings, fuselage sections, and interior panels to reduce weight and improve fuel efficiency.
Automotive: In the automotive industry, carbon fiber sheets are used to manufacture lightweight and high-performance parts such as body panels, chassis components, and interior trim. They help improve fuel economy, performance, and handling characteristics of vehicles.
Marine: Carbon fiber sheets find application in marine environments for manufacturing boat hulls, decks, and other structural components. Their high strength-to-weight ratio and corrosion resistance make them ideal for enhancing the performance and durability of boats and yachts.
Sports Equipment: Carbon fiber sheets are widely used in sports equipment such as tennis rackets, golf clubs, bicycle frames, and hockey sticks. Their lightweight and stiffness properties help improve performance and responsiveness, making them popular among athletes.
Wind Energy: Carbon fiber sheets are used in the manufacturing of wind turbine blades due to their high strength and fatigue resistance. They help increase the efficiency and reliability of wind turbines by reducing blade weight and improving aerodynamic performance.
Medical Devices: Carbon fiber sheets are used in medical devices and equipment such as prosthetics, orthopedic implants, and surgical instruments. Their biocompatibility, lightweight, and strength make them suitable for various medical applications.
Industrial Machinery: Carbon fiber sheets are employed in industrial machinery and equipment for components requiring high strength and stiffness, such as robotic arms, machine frames, and tooling fixtures. They help improve the performance and longevity of industrial machinery.
Consumer Electronics: Carbon fiber sheets are used in consumer electronics products such as laptop cases, smartphone cases, and audio speakers. Their lightweight and aesthetic appeal contribute to sleek and durable electronic devices.
Renewable Energy: Carbon fiber sheets are utilized in renewable energy applications such as solar panels and hydroelectric turbines. They help increase the efficiency and durability of renewable energy systems by reducing weight and improving structural integrity.
Civil Engineering: Carbon fiber sheets are used in civil engineering applications for strengthening and repairing concrete structures such as bridges, buildings, and infrastructure. They provide enhanced durability, corrosion resistance, and seismic performance to existing structures.
