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A-5 UIN-30T UD carbon fiber prepreg
Product introduction:
UIN-30T unidirectional carbon fiber prepreg, with a fiber modulus of 30 GPa, has a width range of 1.0m to 1.5 meters. The resin used can be adjusted according to customer requirements.
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30T UD Carbon Fiber Prepreg (UIN-30T): High-Modulus Composite for Precision Engineering
UIN-30T Unidirectional Carbon Fiber Prepreg (commercially known as 30T UD Carbon Fiber Prepreg) is a high-performance composite material engineered to meet the rigorous demands of modern structural applications, where superior modulus, strength, and adaptability are non-negotiable. As a unidirectional (UD) prepreg, its carbon fibers are aligned in a single, precise direction—this intentional design maximizes mechanical performance along the fiber axis, making it the ideal choice for load-bearing components that require targeted stiffness and resistance to deformation. Defined by its robust core specifications, the 30T UD Carbon Fiber Prepreg features a fiber modulus of 30 GPa (gigapascals), a key metric that reflects its ability to maintain shape under stress. This places it above standard low-modulus carbon fiber materials, positioning it as a top-tier option for projects that demand both strength and structural stability. The prepreg width ranges from 1.0m to 1.5 meters, a versatile range that accommodates both small-batch prototype production and large-scale manufacturing runs without compromising material consistency. Most notably, the resin type can be fully customized according to customer requirements—including epoxy, phenolic, polyurethane, and other specialized formulations—allowing adaptation to specific curing conditions (such as temperature and time), environmental tolerances (like high humidity or chemical exposure), or end-use performance goals. This flexibility ensures that 30T UD Carbon Fiber Prepreg can seamlessly integrate into a wide range of industrial and consumer applications, from cutting-edge aerospace engineering to high-performance sports gear.
Performance Characteristics: A Synergy of Strength and Versatility
30T UD Carbon Fiber Prepreg stands out for its comprehensive suite of high-caliber performance characteristics, each tailored to excel in the most challenging environments. At its core, the material delivers an unbeatable combination of high strength, low density, and lightweight properties—outperforming traditional structural materials like steel, aluminum, and even standard carbon fiber variants. Its specific strength (strength per unit weight) is several times higher than that of metals, enabling the creation of components that are both robust enough to withstand heavy loads and lightweight enough to reduce overall system weight. This balance is particularly valuable in industries where weight reduction directly translates to improved efficiency, safety, or performance, such as aerospace and automotive manufacturing.
Complementing its strength is exceptional fatigue resistance. The unidirectional fiber alignment, paired with the optimized resin matrix, allows 30T UD Carbon Fiber Prepreg to withstand repeated cyclic loads over extended periods without degradation. Unlike materials that weaken or fail under constant stress, this prepreg maintains its structural integrity, making it ideal for components like aircraft wings, automotive chassis, and industrial machinery parts that endure continuous use. Another standout feature is its superior vibration damping performance: the carbon fiber filaments and resin work in tandem to absorb and dissipate vibrational energy, reducing noise and minimizing structural fatigue. This property is critical for precision equipment, high-speed vehicles, and industrial systems where vibration can compromise performance, accuracy, or longevity.
Additionally, 30T UD Carbon Fiber Prepreg exhibits a low friction coefficient and outstanding wear resistance, ensuring smooth operation in moving parts and extending service life even in high-wear environments. Its inherent corrosion resistance is equally impressive—carbon fiber is naturally inert, meaning it does not rust, corrode, or degrade when exposed to moisture, chemicals, saltwater, or harsh weather conditions. The customized resin matrix further enhances this protection, allowing the material to maintain its performance in marine, industrial, or outdoor applications for decades, eliminating the need for frequent maintenance or replacements. Rounding out its advantages are good plasticity and easy processing: the prepreg can be molded into any shape according to mold design, from simple flat plates to complex, contoured components with intricate details. It is compatible with a range of manufacturing processes, including layup, winding, and compression molding, simplifying production, reducing waste, and lowering overall manufacturing costs.
Product Applications: Transforming Industries Through Advanced Material Science
Thanks to its exceptional performance characteristics and versatility, 30T UD Carbon Fiber Prepreg is widely adopted across key industries, where it plays a pivotal role in enhancing product performance, efficiency, and durability.
In the aerospace industry, 30T UD Carbon Fiber Prepreg is a preferred material for critical load-bearing components such as aircraft wings, tail sections, and cabin walls. Aircraft manufacturers rely on its high modulus and lightweight properties to significantly reduce the overall weight of the aircraft while maintaining exceptional stiffness and structural stability. This weight reduction directly improves fuel efficiency, extends flight range, and lowers emissions—critical goals in modern aviation’s push for sustainability. Additionally, the material’s fatigue resistance and corrosion resistance ensure it can withstand the harsh conditions of high-altitude flight, from extreme temperature fluctuations to exposure to atmospheric moisture, meeting the stringent safety standards set by organizations like the FAA and EASA.
The automotive industry, particularly the high-performance and electric vehicle (EV) sectors, has embraced 30T UD Carbon Fiber Prepreg for its ability to balance strength, light weight, and safety. It is used to manufacture sports car body parts such as doors, chassis, hoods, and fenders, where its lightweight design reduces vehicle mass, improving acceleration, handling, and fuel efficiency (or battery range for EVs). Its exceptional impact resistance also enhances passenger safety by absorbing and dissipating crash energy more effectively than traditional materials like steel or aluminum, making it a favorite among luxury and performance car manufacturers striving to deliver both speed and protection.
In the realm of high-end sports equipment, 30T UD Carbon Fiber Prepreg has become a game-changer for athletes and manufacturers alike. It is a key material in golf clubs, where its high strength and flexibility optimize swing speed, power transfer, and accuracy, helping players achieve greater distance and control on the course. Fishing rods crafted from the prepreg benefit from its lightweight design and sensitivity, reducing angler fatigue during long hours of use while providing the strength needed to reel in large catches. Ski poles and snowboard components leverage its durability and vibration damping, enhancing stability and performance on the slopes, even in rough terrain. For athletes and enthusiasts, 30T UD Carbon Fiber Prepreg transforms ordinary equipment into high-performance tools that elevate their capabilities.
Industrial equipment manufacturers turn to 30T UD Carbon Fiber Prepreg for high-pressure structures such as pressure vessels, pipes, and storage tanks. Through advanced winding processes, the prepreg can be layered in precise orientations to create seamless, high-strength designs that withstand extreme internal and external pressures. Its corrosion resistance makes it ideal for applications in oil and gas, chemical processing, and water treatment, where exposure to harsh chemicals or moisture is common. The material’s lightweight properties also simplify transportation and installation, reducing operational costs for industrial facilities.
Beyond these core sectors, 30T UD Carbon Fiber Prepreg finds applications in wind energy (for wind turbine blades, where its high modulus and durability improve energy conversion efficiency and lifespan), rail transit (for train bodies, bogies, and interior components, reducing weight and enhancing operational stability), and marine engineering (for boat hulls, decks, and structural parts, offering corrosion resistance and fuel efficiency). As industries continue to prioritize sustainability, efficiency, and performance, 30T UD Carbon Fiber Prepreg remains at the forefront of material innovation, enabling the development of products that are stronger, lighter, and more durable than ever before.
