What is the maximum temperature that can be reached in a rotating inclined tube high-temperature furnace?

The maximum temperature of a rotating inclined tube high-temperature furnace can usually reach 1400 ℃ to 1800 ℃, depending on the equipment model and configuration. Here are the temperature ranges and characteristics of some key equipment:

1400 ℃ high-temperature rotating inclined tube furnace
Suitable for uniform pyrolysis of materials, such as powder metallurgy, ceramic sintering, and other processes.
The structure can rotate 360 degrees, with a speed of 3-6 revolutions per minute (adjustable) and a tilt angle of 0-10 degrees (adjustable), ensuring uniform heating of the material.
The temperature control accuracy is ± 1 ℃, equipped with functions such as over temperature protection and trip protection.

1800 ℃ multi temperature zone rotating inclined tube furnace
Covering a wider temperature range, suitable for processes such as high-temperature alloy melting and ceramic high-temperature sintering.
Using silicon carbon rods, silicon molybdenum rods, or resistance wire heating elements, the split furnace body design is easy to transport.
Equipped with electric or hydraulic tilting mechanism (0-30 degree adjustment), combined with spiral feeding device to achieve continuous feeding.

1700 ℃ vacuum rotating inclined tube furnace
Suitable for processes such as semiconductor material diffusion and metal nitriding treatment.
Can work under vacuum or inert atmosphere, effectively avoiding material oxidation.
The tilted rotation design promotes gas exchange and heat transfer on the sample surface, accelerating the sintering process.

Equipment advantages:
Multi temperature zone control: meets the temperature gradient requirements of complex processes, such as composite material preparation.
Wide adaptability to the atmosphere: nitrogen, argon, hydrogen, etc. can be introduced to control the reaction atmosphere.
Uniform heating: The tilted rotating design ensures a uniform distribution of temperature field inside the furnace, improving product quality.
Efficient and energy-saving: Reasonable design and high-quality insulation materials reduce energy waste.