Carbon fiber autoclave

Introduction to Carbon fiber autoclave:

Carbon fiber hot press tank is a professional composite material curing and forming equipment. It adopts high temperature and high pressure technology to cure and form materials such as carbon fiber and resin in pressure vessels. This type of equipment is widely used in aerospace, automotive, sports equipment and other fields, with advantages such as high strength, lightweight, and corrosion resistance. The manufacturing process of carbon fiber hot press cans is very complex and requires multiple steps to complete. Firstly, it is necessary to make molds and pre impregnated materials, and then place them in a hot press tank for high-temperature and high-pressure treatment. During the curing process, it is necessary to strictly control the temperature and pressure to ensure that the material can be fully cured. Finally, after cooling and demolding, qualified carbon fiber products can be obtained. Carbon fiber hot press can, as an advanced composite material manufacturing equipment, provides a more reliable manufacturing method for various industries.

Carbon fiber autoclave model parameters:

Application fields of Carbon fiber autoclave:

Carbon fiber hot press cans are widely used in the production of carbon fiber prepreg parts through hot press curing, such as aircraft wings and radar; Solar cell substrate, sandwich panel; The hood and interior parts of a car; Sports equipment such as tennis rackets, insoles, and skis. This carbon fiber hot press can be used for both industrial composite material production and laboratory applications.

Composition of carbon fiber autoclave system:

1. Tank body: A high-pressure and high-temperature resistant tank body is formed by the tank body, tank door mechanism, high-temperature motor, air duct, insulation layer, etc;  

2. Door opening method: 1. Manual quick opening (manual rotation, manual opening) 2. Electric door opening (electric rotation, manual opening) 3. Hydraulic door opening (hydraulic rotation, hydraulic opening);

3. Sealing device: The tank door adopts a silicone inflatable seal, which can withstand high temperatures of 400 ° C;

4. Safety system: including tank door interlocking device, tank top safety valve, and over temperature and over pressure alarm system;

5. Pressure system: The pressure transmission and control system consists of an air compressor, an air storage tank, a pressure control valve, pipelines, pressure transmitters, and pressure gauges;

6. Heating system: composed of stainless steel electric heating tubes, high-temperature fans, air duct plates, insulation layers, and temperature control systems. The heating power meets the high temperature requirements and heating rate requirements of the chamber;

7. Cooling system: stainless steel cooling pipes, water tanks, water pumps, cooling towers, pipelines, valves, set up for product and tank cooling;

8. Temperature cycling system: composed of a circulating fan, air guide plate, and guide cover, it accelerates heat transfer and circulation, forming a uniform temperature field;

9. Vacuum system: composed of vacuum pump, vacuum tank, pipeline, vacuum gauge, and vacuum valve, providing vacuum conditions for encapsulated composite prefabricated parts;

10. Automatic control system: including a complete set of electrical cabinets, using Siemens PLC control system to achieve full control and real-time recording of process parameters such as pressure, temperature, and cooling.