The heating temperature range of a box furnace varies depending on the specific equipment design and usage. Generally speaking, the heating temperature of a box furnace can be adjusted over a wide range to meet the needs of different materials and processes.
Common temperature range:
The temperature range of a box type high-temperature furnace with a large furnace size is usually between 400 and 1800 degrees Celsius. The specific temperature will be determined based on experimental or production needs, but the rated temperature generally does not exceed 1800 degrees.
Vacuum atmosphere box type electric furnaces also have different temperature specifications, such as 1300 degrees and 1600 degrees, which are two common temperature specifications.
Temperature control:
Box furnaces are usually equipped with temperature control systems, which can accurately control the temperature inside the furnace and ensure that the temperature remains stable within the set range.
Temperature control systems typically include temperature sensors (such as thermocouples) and controllers. Temperature sensors are used to monitor the actual temperature inside the furnace and feedback temperature signals to the controller; The controller adjusts the current of the heating element based on the preset heating curve and current temperature signal, thereby controlling the temperature inside the furnace.
Material adaptability:
Different materials have different requirements for heating temperature. For example, some metal materials require heat treatment at higher temperatures to change their microstructure and properties; Some ceramic materials require sintering at relatively low temperatures.
Therefore, when selecting a box furnace, it is necessary to determine the appropriate heating temperature range based on specific material and process requirements.
In summary, the heating temperature range of a box furnace is usually between 400 and 1800 degrees, depending on the design and purpose of the equipment. When selecting a box furnace, it is necessary to determine the appropriate heating temperature range based on actual needs and material characteristics, and equip corresponding temperature control systems to ensure temperature stability and accuracy.