Product Description
>> Carbon Fiber Roving, available in various tow sizes like 3K, 12K, etc., is a bundle of continuous carbon fibers with high tensile strength, low density, excellent corrosion and heat resistance, making it ideal for use in diverse industries such as aerospace, automotive, and sports goods to create lightweight yet robust components.
Code | 0° | 90° | Density (g/m²) | ||
Fiber | Density (g/m²) | Fiber | Density (g/m²) | ||
CWP100-1k | 1K | 50 | 1K | 50 | 100 |
CWP200-3k | 3K | 100 | 3K | 100 | 200 |
CWP240-3k | 3K | 120 | 3K | 120 | 240 |
CWP280-6k | 6K | 140 | 6K | 140 | 280 |
CWP360-6k | 6K | 180 | 6K | 180 | 360 |
CWP400-12k | 12K | 200 | 12K | 200 | 400 |
CWP480-12k | 12K | 240 | 12K | 240 | 480 |
Technical Sheet
Code | Warp | Weft | Density g/m2 | Thickness mm | ||
Fiber | Weight g/m2 | Fiber | Weight g/m2 | |||
CWP210 | 3K | 105 | 3K | 105 | 210 | 0.2 |
| >> Suitable Production Process | >> Characteristics |
| Exhibiting a substantial modulus of elasticity, this material demonstrates a strong capacity to resist deformation under the influence of external forces. Upon the removal of the stress, it is capable of regaining its original configuration. Such a property is of paramount significance in upholding the structural integrity of components, as it enables them to endure mechanical loads without compromising their form and functionality. |
Main Application Area
Aerospace & Aviation, Military industry and wind power industry,
Transportation, Construction Industry, Medical equipment, Sports products.
>> Aviation Field Carbon fiber roving enjoys extensive utilization in the aerospace industry, playing a crucial role in the fabrication of various components. It is employed to create essential parts like aircraft wings, fuselages, and engine components. Thanks to its exceptional strength-to-weight ratio, carbon fiber roving enables a significant reduction in the overall weight of an aircraft. This weight reduction, in turn, leads to enhanced fuel efficiency, allowing the aircraft to cover longer distances with less fuel consumption. Moreover, it contributes to improved performance, enabling smoother flight operations, better maneuverability, and increased speed capabilities. |  |
| >> Automotive Field Within the automotive sector, carbon fiber roving is utilized for the manufacturing of lightweight body panels, drive shafts, and suspension components. These components are integral to the vehicle's structure and functionality. The body panels, with their reduced mass due to carbon fiber roving, contribute to the overall aerodynamics and weight - reduction efforts of the vehicle. Drive shafts fabricated from this material offer high strength - to - weight ratios, facilitating efficient torque transfer. Suspension components made with carbon fiber roving enhance the vehicle's dynamic performance. The application of carbon fiber roving in automotive design can lead to a significant decrease in the vehicle's weight. This reduction in weight has two primary benefits. From an energy - efficiency perspective, it results in improved fuel economy as the power required to propel the vehicle is decreased. In terms of performance, it enhances the driving experience by providing better acceleration, braking, and handling characteristics. |
| >> Sports Equipment Carbon fiber roving has become a highly sought-after material in the manufacturing of various sports equipment. It is prominently utilized in the production of items such as bicycles, where its lightweight yet robust nature contributes to enhanced speed and maneuverability. In the case of golf clubs, carbon fiber roving allows for the creation of shafts that offer superior strength and flexibility, enabling golfers to achieve greater accuracy and distance in their swings. When it comes to tennis rackets, the use of carbon fiber roving imparts exceptional stiffness and power transfer, allowing players to generate more force with each shot while maintaining control. Similarly, in fishing rods, this material provides the necessary strength to withstand the pull of large fish, while its lightweight characteristic ensures a comfortable and fatigue-free fishing experience. |  |
 | >> Other Applications include shipbuilding, building materials, electronic products, etc. In these areas, plain carbon fiber cloth can play a role in strengthening, weight reduction, heat insulation and so on. |
Maintenance
| Clean the surface of the carbon fiber Fabric. During use, dust and stains on the surface of carbon fiber Fabric should be cleaned in time, and special cleaners should be used to avoid acidic or alkaline cleaners. |
| Prevent carbon fiber Fabric From being exposed to sunlight for a long time. Long exposure to sunlight will make the surface of carbon fiber Fabric crack and fade, affecting the beauty and service life. |
 | When storing carbon fiber Fabric Attention should be paid to avoid humidity, high temperature and other environments. When storing carbon fiber Fabric, avoid humidity, high temperature and other environments, and keep dry and ventilated. |
In summary, carbon fiber Fabric has a long service life, but long-term use also needs to pay attention to some matters. During use, attention should be paid to prevent damage to the surface of the carbon fiber Fabric, to avoid environmental effects such as high temperature and high humidity, and to check the use regularly.
In terms of maintenance,attention should be paid to cleaning the surface of the carbon fiber Fabric, avoiding long-term exposure to the sun, and properly storing the carbon fiber Fabric.
