The "low-altitude economy" has been booming in recent years. Reflecting the importance of developing the low-altitude economy and promoting prosperity, it will grow in the future.

Carbon fiber is widely used in body structures of trains for ultra-high-speed rail, which is due to its high strength, high stiffness, and lightweight properties. Carbon fiber can make the train much lighter and make it stronger, helping to reduce vibration and improve the vehicle's stability. Moreover, for the interior, carbon fiber makes trains more comfortable due to its sound insulation performance and artistic, enhancing passenger comfort.

Carbon fiber materials enhance aerospace and shipping applications with lightweight strength, corrosion resistance and high durability. They improve fuel efficiency, payload capacity and overall structural performance of aerospace, marine vessels and transport systems.

Carbon fiber is a key innovation in modern vehicle design, offering exceptional strength while remaining lightweight, making it ideal for high-performance and efficient transportation.

Carbon fiber transmission shafts have excellent torsional resistance, bending resistance, high rotational speed, lightweight and good fatigue resistance.

Carbon fiber composite materials have excellent X-ray transmission performance, ultra-high strength, fatigue resistance and good biocompatibility, making it an irreplaceable material for medical imaging and surgery tools as well as medical prosthetics. In the field of MRI, carbon fiber composite support is often used for pallets.

Fishing rods that can be made lighter, stronger and more durable.tennis rackets that can be used for leisure or competition, which have high stiffness, strength and durability. Bicycle frames and sports helmets can reduce the weight, increase the stiffness, and have good impact resistance and appropriate use of carbon fiber.

Carbon fiber of bridges, such as cables, can improve the reliability of bridges due to its excellent creep resistance, fatigue resistance and tensile strength. It can improve the reliability of engineering structures, such as bridges, tunnels, and structures, and it can improve the safety and service life of structures, and reduce the weight and volume of structures.