The heat treatment temperature range of experimental muffle furnace is wide, depending on the experimental requirements and the type of muffle furnace. Generally speaking, the heat treatment temperature of experimental muffle furnaces can range from several hundred degrees Celsius to several thousand degrees Celsius. Here are some common temperature ranges and their application scenarios:
Low temperature range (several hundred degrees Celsius):
Suitable for some low-temperature heat treatment experiments, such as drying, preheating, etc.
The temperature range of a low-temperature muffle furnace is usually between room temperature and 600 degrees Celsius, but it can also be used for some moderate temperature experiments.
Medium temperature range (800 ° C-1200 ° C):
Widely used in laboratory and industrial heating processes, such as annealing, quenching, and other heat treatment processes.
This type of muffle furnace is suitable for most materials science and chemistry experiments, such as thermal stability testing of materials, phase transition research, etc.
High temperature range (1200 ° C-1600 ° C):
Suitable for experiments such as material sintering and melting at high temperatures.
This type of muffle furnace is commonly used for sintering, dissolution, and analysis of metals and ceramics.
Ultra high temperature range (above 1600 ° C):
Usually used for high-temperature experiments on special materials, such as ceramic sintering, powder metallurgy, etc.
The temperature range of this type of muffle furnace may reach up to 1700 ° C or even higher, making it suitable for material research and metallurgical experiments under extreme conditions.
When selecting an experimental muffle furnace, it is necessary to determine the required temperature range based on specific experimental requirements, and consider factors such as the performance characteristics, heating rate, and temperature control accuracy of the muffle furnace. At the same time, attention should also be paid to the safe use of the muffle furnace, avoiding exceeding the maximum operating temperature of the equipment to ensure its long-term stable operation and the accuracy of experimental results.