Author: Site Editor Publish Time: 2025-07-24 Origin: Site
As a key component of high-performance composite materials, carbon fiber fabric has been widely used in aerospace, automobile manufacturing, sports equipment, wind turbine blades, electronic products and many other fields due to its excellent mechanical properties, corrosion resistance and lightweight characteristics. This article will start from the definition of carbon fiber fabric and deeply explore its main types, process characteristics and typical uses to help users fully understand the value and development potential of this advanced material.
Carbon fiber fabric is a cloth-like material made of carbon fiber filaments (usually PAN-based carbon fiber) through a weaving process. It has extremely high strength, stiffness, high temperature resistance and chemical stability. Its essence is a high-modulus and high-strength fiber material processed by weaving or non-woven technology.
| Performance Indicators | Characteristics Description |
| Strength | 5-7 times that of steel |
| Modulus | 2-3 times that of steel |
| Density | About 1.6-1.8g/cm³, only 1/4 of steel |
| Thermal Conductivity | Can show high thermal conductivity or thermal insulation characteristics according to different models |
| Corrosion Resistance | Extremely strong, especially suitable for chemical and marine fields |
| Moldability | Can be used for hand lay-up, RTM, vacuum bag molding and other processes |
PAN-based carbon fiber (polyacrylonitrile-based): high strength and wide application.
Pitch-based carbon fiber (petroleum asphalt-based): high modulus, suitable for high-rigidity structures.
Graphitized carbon fiber: excellent high-temperature performance.
Features: Carbon fiber is laid in only one direction, and the strength is concentrated in a single direction.
Uses: Mostly used for structures that require directional reinforcement, such as wind blades and aviation structural parts.
Features: Frequent vertical and horizontal interweaving, high stability but poor softness.
Application: Suitable for products with high requirements for structural stability, such as composite panels and decorative shells.
Features: Good flexibility and aesthetic appearance, common 2×2 or 3×3 twill.
Use: Automotive interior parts, sports equipment, high-end electronic equipment shells, etc.
Features: Smooth surface, enhanced interlayer bonding, high flexibility.
Applicable: Structural parts with high surface forming requirements, such as drone fuselages, helmets, etc.
Features: Carbon fiber is laid in three-dimensional space, with excellent impact resistance.
Typical applications: Aerospace components with complex structures and high strength requirements.
Manufacturing key components such as aircraft wings, satellite brackets, and rocket shells.
Advantages: Weight reduction of more than 50%, improving fuel efficiency and load-bearing capacity.
Applied to racing chassis, doors, hoods, bumpers, etc.
Features: Improve safety while reducing the weight of the entire vehicle, and help the development of new energy vehicles.
Bicycle racks, tennis rackets, golf clubs, etc.
Description: Extreme lightness and strength are combined to improve sports performance.
Used for bridge and tunnel reinforcement and earthquake-resistant structure construction.
Method: Use carbon fiber cloth to reinforce concrete structures to replace traditional steel bars.
Medical equipment brackets, X-ray impenetrable parts, anti-electromagnetic interference shells, etc.
Advantages: High strength, X-ray permeability, non-metallic properties and other comprehensive properties are outstanding.
Applicable to: simple structure, large-size products.
Advantages: low mold cost and flexible operation.
Disadvantages: low efficiency and quality depends on manual labor.
Features: high density of finished products and few bubbles.
Mostly used in the production of mid-to-high-end carbon fiber products, such as drone structural parts.
Advantages: high degree of automation, suitable for mass production.
Applications: automotive parts, carbon fiber panels, etc.
In recent years, with the acceleration of green, low-carbon and lightweight trends, the demand for carbon fiber fabrics in various industries has shown explosive growth. According to relevant data, the global carbon fiber market has an annual compound growth rate (CAGR) of more than 10%, especially in the fields of new energy vehicles and aerospace.
Is the source of raw silk stable (such as Toray, Hershey, Mitsubishi, etc.).
Is the weaving process precise and how is the quality consistency.
Does it support customized specifications and technical support.
Does it have the ability to deliver in large quantities.
As a representative of modern high-performance materials, carbon fiber fabrics have been deeply involved in the structural upgrades and product innovations of many industries. Choosing a professional carbon fiber material supplier can not only ensure product quality, but also get full protection in price, delivery time and technical services.
If you need to purchase or wholesale carbon fiber fabrics, please contact Revolve CF carbon fiber material supplier. We focus on the research and development and customized solutions of high-performance carbon fiber materials, and are committed to providing stable and high-quality material support to global customers.
Contact email: HarveyXu@revolve-cf.com
Official website address: https://www.revolve-cf.com
