Design and manufacture up to 2000°C furnace

When it comes to designing and manufacturing furnaces capable of reaching temperatures up to 2000°C, precision and expertise are key. 

What materials are used in the construction of high-temperature furnaces?

Common materials include refractory bricks, ceramic fiber insulation, high-temperature alloys such as Inconel or molybdenum, Graphite and Tungsten. 

How is temperature control achieved in these furnaces?

Temperature control in high-temperature furnaces is achieved through the use of advanced heating elements such as molybdenum disilicide or silicon carbide. 

What are the key considerations in the design of high-temperature furnaces?

• What temperature do you need?
  Generally, lower temperatures are less expensive and easier to manufacture. Higher temperatures require much more careful design to ensure the furnace is safe and maintains stable temperature.
• Will the furnace operate under vacuum or inert gas?
  Whether using vacuum or inert gas, evacuating the chamber helps minimize contamination from air. If your process may be affected by oxygen, hydrogen, or other corrosive gases, you will need an extremely high vacuum and corrosion-resistant tubing. Nitrogen and argon are generally safe options. Please note that each gas line should be independent to ensure safety and long-term reliability.
• What is your budget?
  Affordability should also be considered. If the furnace will not be used frequently—especially for high-temperature applications—you may consider working with a specialized company that can significantly reduce your cost by building a custom furnace for your needs. We also provide this service.

Feel free to contact us at support@design-realized.com to discuss your cost-effective project.