UD Carbon Fiber Fabric

Unidirectional Carbon Fiber Fabric

Carbon Fiber Unidirectional Fabric represents a preeminent class of composite material, meticulously crafted with carbon fibers arranged in an elegant alignment in a singular direction within a sophisticated non-woven fabric. In contrast to conventional unidirectional (UD) prepregs, which are pre-impregnated with a resin system, this advanced unidirectional fabric consists exclusively of reinforcement fibers, devoid of any resin. 

This fabric capitalizes on the remarkable high strength and unparalleled stiffness properties inherent in carbon fibers, delivering optimal performance when strategically aligned in the direction of the applied load, ensuring enhanced structural integrity and reliability. It is the optimal choice for applications requiring superior load-bearing capacity and precision engineering, rendering it ideal for contemporary construction projects or any endeavor that aims to explore the limits of modern architecture and engineering excellence.

Feature:

Directional Strength and Stiffness:

The premium 24K 300G/M2 unidirectional carbon fiber fabric is engineered to deliver exceptional strength and rigidity, with a focus on the fiber alignment. This advanced design is ideally suited for projects that demand precise alignment of fibers with known load directions. By adhering to these guidelines, one can fully leverage the advanced mechanical properties of this fabric, thereby ensuring optimal performance in the intended applications.

Flexibility in Resin Choice

This pioneering fabric is supplied without pre-impregnated resin, thereby affording manufacturers the liberty to select the most appropriate resin system. During the lay-up process, it is possible to customize the application to align with precise specifications, thereby ensuring optimal compatibility and delivering exceptional results tailored to the user's needs.

Lightweight:

The exceptional high strength-to-weight ratio characteristic of our unidirectional carbon fiber fabric is a hallmark of carbon fiber materials. This attribute plays a vital role in significantly reducing the weight of the final composite part, thereby enhancing efficiency and elevating performance to new heights.

The configuration of lay-ups is a customizable process.

The ability to customize lay-ups allows for the realization of unparalleled potential, resulting in a sense of freedom. The material's inherent versatility allows for precise layering in various orientations, facilitating its seamless integration with other fabric types. This flexibility enables the creation of laminates with tailored mechanical properties, which are well-suited to a broad range of application requirements.

Application:

Construction and Civil Engineering:

The following paper introduces a state-of-the-art solution for the construction industry: the 13K 200G/M2 Unidirectional Carbon Fiber Fabric by Hitex Insulation. This advanced material is ideal for fortifying critical infrastructure, including bridges, buildings, and roadways. Its exceptional directional strength not only enhances durability but also increases load-bearing capacity, ensuring the longevity and resilience of the structures.

The field of aerospace and aviation is a subject of significant interest and study.

The fabric under consideration represents a significant advancement for the aerospace sector. The material has been meticulously crafted to suit critical structural elements, such as wing beams, fuselage reinforcements, and tail surfaces. This advanced material enhances directional strength, promoting safer and more efficient aviation solutions and establishing new standards in aerospace innovation.

Automotive:

The automotive industry is undergoing a period of significant transformation, driven by innovations in materials and design. One such innovation is a fabric designed for high-performance and racing vehicles, which promises to bring about a new era of automotive excellence. It is imperative for the fabrication of robust components, including frames, roll cages, and body panels, to ensure the optimal performance and durability of the finished product. This advanced material enhances vehicle strength while reducing weight, thereby significantly increasing performance.

Marine:

The following investigation seeks to explore the potential of marine architecture by investigating the properties of a particular fabric. This material is ideal for use in the production of hulls, masts, and other critical components of boats and ships. It offers superior performance and extraordinary fuel efficiency by strategically reducing weight, paving the way for a new era in marine design.

Sports Equipment:

The objective of this study is to examine the potential of a particular fabric to enhance the standards of sports engineering and to transform high-performance sports equipment. The material under consideration plays a vital role in the advanced development of racing bicycle frames, rowing shells, and archery bows. Indeed, the material enhances durability, performance, and competitive edge in the sports arena.

Construction Field of CFRP Fabric Strengthening:

The following infrastructure is subject to this study:

- Civil buildings

- Bridges

- Tunnels

- Piers/wharfs

- Airports

- Highways

-Railways