English
Product Performance
Maximum temperature :1700℃
Size of reaction area: Φ600×400mm
Pressure rise rate:<5Pa/h
Cold ultimate vacuum: <10Pa
Pressure: 20T
This equipment is a pressurised high-temperature carbonisation furnace, which is mainly used for carbonisation of carbon/carbon composites, graphite hardfelt, carbon fibres, graphite materials and products at low and medium temperatures.
Power supply | AC 380V±10%, three-phase five-wire system, 50Hz/60Hz |
Total heating power | About 115kW |
Working temperature | 1600℃ |
Maximum temperature | 1700℃ |
Heating mode | Graphite heating |
Temperature control precision | (Constant temperature)±1℃ |
Pressure range | 0-10T |
Temperature detection | Tungsten rhenium thermocouple/N armoured thermocouple |
Effective working size | φ600x400mm |
Temperature rise rate | ≤10℃/min |
Cooling rate | Can be programmed to control the temperature, furnace temperature above 700 ℃ cooling rate can be up to 10 ℃ / min, furnace temperature below 700 ℃<10 ℃ / min |
Furnace temperature uniformity | ±3℃ |
Press system | Adopting self-service electrode control pressure rise system, range: 0-10T, minimum pressure rise rate of 10kg/s, minimum pressure relief rate of 50kg/s, pressure control accuracy: ±0.1T. pressure uniformity, no concentration point. |
The equipment adopts the hard shell type side-opening structure, which improves the convenience of picking and placing materials.
According to thermodynamic and kinetic principles, the temperature field is designed so that the equipment has a variety of process functions, such as carbon material pre-reduction, and pressurised carbonisation. It lowers the process temperature, reduces the process energy consumption, and improves the production efficiency, material performance and product yield rate.
The equipment is equipped with a high-precision press with a control accuracy of ±0.1t (0~10t). The carbonization equipment allows for real-time pressure adjustments during the carbonization process, which effectively reduces energy consumption and improves the properties of the materials.
