The temperature range of an atmosphere tube furnace can vary depending on its design and purpose. Generally speaking, the temperature range of an atmosphere tube furnace can extend from lower temperatures (such as room temperature) to higher temperatures, depending on the performance of its heating elements, insulation materials, and control system.
Here is some detailed information about the temperature range of the atmosphere tube furnace:
1. Common temperature range
Low temperature range: Some atmosphere tube furnaces are designed for low-temperature experiments or processing, and their temperature range may start from room temperature and extend to several hundred degrees Celsius.
Medium to high temperature range: Many atmosphere tube furnaces are designed for medium to high temperature experiments, such as chemical analysis, physical measurements, and heat treatment of small components. The temperature range of these furnaces can typically reach 1300 ℃, 1400 ℃, or even higher.
High temperature range: The temperature range of high-temperature tubular atmosphere furnaces can be higher, and some advanced furnaces can even reach 1700 ℃ or higher. These furnaces are typically used in experimental or production processes that require high-temperature treatment, such as metallurgy, machinery, light industry, and other fields.
2. Specific examples
KJ series tubular resistance furnace: It can be divided into three specifications and models according to its working temperature: 300-1000 ℃, 1000-1400 ℃, and 1400-1700 ℃, suitable for different experiments or treatments in the laboratory.
1600 ℃ high-temperature vacuum atmosphere tube furnace: such as KJ-T1600-80 model of Kejia electric furnace, its rated temperature can reach 1600 ℃ and has the characteristics of high-precision temperature control (± 1 ℃). This furnace can operate in various atmospheres, greatly expanding its range of use.
3. Temperature control accuracy
The temperature control accuracy of the atmosphere tube furnace is also one of its important performance indicators. Some advanced furnaces can achieve high-precision temperature control, such as temperature control accuracy of ≤± 1 ℃, which is crucial for experiments or production processes that require precise temperature control.
4. Heating rate
In addition to temperature range and temperature control accuracy, heating rate is also an important parameter of atmosphere tube furnace. Some furnaces have faster heating rates, which can reach the desired temperature in a shorter period of time, thereby improving the efficiency of experiments or production.
In summary, the temperature range of atmosphere tube furnaces can vary depending on their design and purpose, with corresponding furnaces available for selection from low to high temperatures. When choosing a furnace, it is necessary to determine the required temperature range and heating rate parameters based on the specific needs of the experiment or production.