3k 5HS - Satin - Carbon Fabric - 285gsm -T300

Product Description

3K285g 5HS satin carbon fiber fabric has the following characteristics:

1. Physical properties:

- Lightweight: The density of carbon fiber is about 1.5 to 2.0 grams per cubic centimeter, which is lighter than aluminum and less than 1/4 of steel. This 3K285g carbon fiber fabric is very light, easy to carry, install and use, and has great advantages in application scenarios with strict weight requirements.

- High strength: The tensile strength of carbon fiber is about 2 to 7GPa, and the tensile modulus is about 200 to 700GPa. Its strength is much higher than many common materials. 3K285g 5HS satin carbon fiber fabric inherits the high strength characteristics of carbon fiber, can withstand large tension, pressure and shear force, etc., and has good anti-deformation ability.

- Low thermal expansion coefficient: The thermal expansion coefficient of carbon fiber itself is negative (-0.5~-1.6)×10⁻⁶/K indoors, zero at 200~400℃, and 1.5×10⁻⁶/K at less than 1000℃. This makes the fabric have good dimensional stability when the temperature changes, and it is not easy to produce obvious expansion or contraction due to temperature changes.

- Good wear resistance: Carbon fiber rarely wears when it rubs against metal, so this fabric has good wear resistance and can maintain good appearance and performance under long-term use and friction.

2. Weaving structure characteristics:

- Satin structure characteristics: Satin fabric has fewer interlacing points and longer floating lines, making the fabric surface smooth and delicate, with good gloss and drape. The structure of 5HS satin makes it have a certain degree of softness while also having good formability, which can easily form and wrap complex contours.

3. Chemical properties:

- Corrosion resistance: Carbon fiber has good corrosion resistance to general organic solvents, acids, and alkalis, and is insoluble and non-swelling. 3K285g 5HS satin carbon fiber fabric can still maintain stable performance in harsh chemical environments and is not easily corroded or damaged.

- High temperature resistance: Carbon fiber is very stable below 400℃, and even at 1000℃, there is still no significant change. The fabric has good high temperature resistance and can still maintain the stability of its physical and chemical properties under high temperature conditions.

Its application scenarios mainly include the following aspects:

1. Aerospace field: 

In the aerospace field, the weight, strength and high temperature resistance of materials are extremely high. The light weight, high strength and high temperature resistance of 3K285g 5HS satin carbon fiber fabric make it very suitable for manufacturing structural components, wings, fuselages, etc. of aircraft and rockets, which can reduce the weight of aircraft and improve flight performance and fuel efficiency.

2. Sports goods field: 

such as high-end bicycles, golf clubs, tennis rackets, fishing rods and other sports equipment. These equipments need to be lighter and stronger so that athletes can operate and use them better. The carbon fiber fabric can meet these requirements and improve the performance and service life of sports equipment.

3. Automotive field: 

It can be used for body structural parts, engine parts, interior parts, etc. of automobiles. In terms of body structural parts, it can enhance the strength and rigidity of the body and improve the safety of the car; in terms of engine parts, it can withstand high temperature and high pressure environments and improve the performance of the engine; in terms of interior parts, it can provide high-end appearance and texture.

4. Medical device field: 

Due to its good biocompatibility and corrosion resistance, it can be used to manufacture parts of medical devices, such as surgical instruments, prostheses, wheelchairs, etc.

5. Construction field: 

It can be used for the reinforcement and repair of building structures, such as bridges and houses. Its high strength and good durability can improve the bearing capacity and seismic resistance of building structures.

6. Electronic equipment field: 

It can be used to manufacture parts such as housings and radiators of electronic products. Its good thermal conductivity and electrical conductivity can effectively dissipate heat, and can provide electromagnetic shielding functions to protect the normal operation of electronic equipment.

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