Curing tank is a key pressure vessel equipment, mainly used for product curing treatment in industries such as composite materials, insulation materials, and chemical products. It provides a stable high temperature and high pressure environment to enable materials to undergo sufficient chemical reactions and physical property transformations under specific process conditions
Curing autoclave
Introduction to curing autoclave:
Curing tank is a key pressure vessel equipment, mainly used for product curing treatment in industries such as composite materials, insulation materials, and chemical products. It provides a stable high temperature and high pressure environment to enable materials to undergo sufficient chemical reactions and physical property transformations under specific process conditions, thereby achieving the required strength, hardness, and durability in design.
Our company's curing tanks are designed and manufactured strictly in accordance with international standards, with good pressure resistance, sealing, and temperature uniformity to ensure stable and reliable processes. We are committed to providing customers with safe and customized curing solutions, making us your ideal partner for improving product quality and production efficiency.
Reference for model parameters of Curing autoclave:
ltem | Parameter |
Working diameter(mm) | 600-2500 |
Working length(mm) | 800-10000 |
Working pressure(MPa) | 0.4-4 |
Working temperature(℃) | 100-400 |
Temperature control accuracy(℃) | ±0.5-±3.0 |
Uniformity inside the tank(℃) | ±1 |
Pressure control accuracy(MPa) | ±0.01 |
Heating method | Electric heating/steam heating/thermal oil heating |
The core system composition of curing autoclave:
1. Tank system: The core pressure bearing components, including the cylinder and head, are welded from pressure vessel steel plates to ensure structural integrity and safety under high temperature and pressure.
2. Sealing system: It usually adopts a quick opening door cover structure, equipped with high-strength bolts and high-temperature resistant sealing rings, to ensure that the tank door is sealed under working conditions, and the operation is convenient and safe.
3. Heating system: According to the process requirements, electric heating, steam heating, or thermal oil heating can be used to uniformly and accurately raise the temperature of the medium inside the tank through coils or jackets.
4. Pressurization system: composed of an air compressor, an air storage tank, a pressure regulating valve, and pipelines, used to inject and stabilize the pressure required for the process (such as compressed air or inert gas) into the tank.
5. Control system: The central brain, including PLC, temperature/pressure sensors, recorders, and human-machine interface (HMI), realizes automatic programming, conversion control, and data recording of solidification process curves.
6. Safety system: It is a crucial protective device, including safety valves, pressure gauges, over temperature and over pressure interlock alarm devices, etc., to ensure that the equipment can be safely shut down in any abnormal situation.
7. Vacuum system (optional): Used for certain processes that require the removal of bubbles or volatile substances under negative pressure, consisting of a vacuum pump and valves.
8. Circulating air system: Equipped with built-in fans and deflectors, it forces the circulation of the heat medium inside the tank to ensure uniform temperature at all points, which is the key to achieving consistent product quality.
These systems work together to build a stable, reliable, and highly automated solidification processing environment.