Carbon T700: High-Performance Carbon Fiber for Advanced Composite Applications

All Categories

carbon t700

The Carbon T700 represents a significant advancement in carbon fiber technology, offering exceptional strength-to-weight characteristics that make it a premier choice for high-performance applications. This intermediate modulus carbon fiber features a tensile strength of 4,900 MPa and a tensile modulus of 230 GPa, positioning it as a versatile material for both industrial and commercial uses. The T700 is renowned for its consistent quality and reliability, manufactured through an advanced oxidation and carbonization process that ensures uniform fiber properties. Its surface treatment and sizing compatibility enable excellent adhesion with various resin systems, making it ideal for composite manufacturing. The fiber's small diameter of 7 microns contributes to its superior handling characteristics and allows for complex layup configurations. In aerospace, automotive, and sporting goods industries, the T700 has become a standard bearer for applications requiring high strength, fatigue resistance, and dimensional stability. The material's excellent processability and cost-effectiveness have made it particularly attractive for large-scale industrial applications, while its consistent performance characteristics ensure reliable results across different manufacturing processes.

Popular Products

The Carbon T700 offers numerous compelling advantages that set it apart in the carbon fiber market. First, its exceptional strength-to-weight ratio enables the creation of lighter yet stronger structures, resulting in significant weight savings without compromising structural integrity. This characteristic is particularly valuable in aerospace and automotive applications, where weight reduction directly translates to improved fuel efficiency and performance. The material's superior fatigue resistance ensures long-term durability, reducing maintenance requirements and extending product lifecycle. Additionally, the T700's excellent compatibility with various resin systems provides manufacturers with flexibility in processing methods and end-product characteristics. The fiber's consistent quality control during manufacturing ensures reliable performance across batches, minimizing production variations and defects. Its optimal surface treatment enhances fiber-matrix adhesion, resulting in improved composite properties and better stress transfer between fiber and resin. The material's excellent handleability and processability reduce manufacturing complexities and associated costs. Furthermore, the T700's thermal stability and low thermal expansion coefficient make it suitable for applications requiring dimensional stability under varying temperature conditions. Its resistance to environmental factors, including moisture and chemical exposure, ensures long-term performance reliability. The cost-effectiveness of T700, compared to higher-modulus fibers, makes it an economically viable choice for large-scale industrial applications while maintaining high-performance standards.

Tips And Tricks

Unlocking the Potential: Carbon Fiber in Modern Manufacturing

20

Feb

Unlocking the Potential: Carbon Fiber in Modern Manufacturing

View More
Revolutionizing Industries: The Versatile Applications of Carbon Fiber Prepreg in Modern Industries

20

Feb

Revolutionizing Industries: The Versatile Applications of Carbon Fiber Prepreg in Modern Industries

View More
The Future of Materials: How Carbon Fiber Composites Drive Efficiency and Performance Across Industries

20

Feb

The Future of Materials: How Carbon Fiber Composites Drive Efficiency and Performance Across Industries

View More
Carbon Fiber Takes Off: Enabling Lightweight and Efficient Solutions for eVTOL Innovation

22

Feb

Carbon Fiber Takes Off: Enabling Lightweight and Efficient Solutions for eVTOL Innovation

View More

Get a Free Quote

Our representative will contact you soon.
Email
Name
Company Name
Message
0/1000

carbon t700

Superior Mechanical Properties

Superior Mechanical Properties

The Carbon T700's exceptional mechanical properties set new standards in the carbon fiber industry. Its impressive tensile strength of 4,900 MPa enables the creation of structures that can withstand extreme loads while maintaining minimal weight. This remarkable strength-to-weight ratio is achieved through advanced manufacturing processes that ensure consistent fiber quality and orientation. The material's high tensile modulus of 230 GPa provides excellent stiffness, critical for applications requiring minimal deformation under load. These properties are complemented by outstanding fatigue resistance, allowing components to maintain their structural integrity even under repeated stress cycles. The uniform fiber diameter and surface treatment contribute to consistent mechanical performance across different manufacturing batches, ensuring reliable product quality.
Versatile Processing Capabilities

Versatile Processing Capabilities

One of the T700's most significant advantages lies in its versatile processing capabilities. The fiber's optimized surface treatment ensures excellent compatibility with a wide range of resin systems, including epoxy, polyester, and vinyl ester matrices. This versatility allows manufacturers to select the most appropriate resin system for their specific application requirements. The material's good handleability and processing characteristics enable efficient production using various manufacturing methods, from hand layup to automated processes like filament winding and pultrusion. The fiber's consistent sizing and surface properties facilitate uniform wet-out during resin impregnation, resulting in high-quality composite parts with minimal void content.
Cost-Effective Performance

Cost-Effective Performance

The Carbon T700 delivers exceptional value through its cost-effective performance characteristics. While maintaining high-performance standards, it offers a more economical alternative to higher-modulus fibers, making it accessible for large-scale industrial applications. The material's processing efficiency reduces manufacturing time and labor costs, contributing to overall project cost savings. Its durability and resistance to environmental factors minimize maintenance requirements and extend product lifespan, providing excellent long-term value. The consistent quality and reliable performance reduce waste and rework during manufacturing, further enhancing cost efficiency. Additionally, the weight savings achieved through T700 usage can lead to significant operational cost reductions in transportation applications through improved fuel efficiency.