The 1200 ℃ box type muffle furnace can be fully used for experiments, and its high temperature performance, temperature control accuracy, functional diversity, and safety can all meet the needs of laboratories. It is an important equipment in the fields of materials science, chemistry, geology, and so on. Let's take a detailed look from an experimental perspective below!

1200 ℃ experimental box type muffle furnace (click on the picture to view product details)

1. Matching core functions with experimental requirements
High temperature sintering and melting
The 1200 ℃ box type muffle furnace uses heating elements such as silicon molybdenum rods and molybdenum doped alloy resistance wires, combined with ceramic fibers or alumina furnaces, to achieve a stable high temperature of 1200 ℃. This temperature range is applicable for densification sintering of ceramic materials such as alumina and silicon nitride, melting treatment of metal alloys, and melting analysis of geological samples. For example, in ceramic sintering experiments, precise temperature control is required to optimize the crystal structure, and this equipment can achieve an accuracy of ± 5 ℃ through a PID temperature control system.

Research on Heat Treatment and Phase Transformation
In materials science, processes such as annealing, quenching, and tempering of metals need to be carried out at specific temperatures. For example, the quenching of high alloy steel requires rapid heating to the austenitizing temperature (usually 800-1200 ℃), and a 1200 ℃ box type muffle furnace can meet such requirements. In addition, high-temperature phase transition experiments (such as the formation of intermetallic compounds) also rely on such equipment to provide a stable high-temperature environment.

2. Flexibility and safety of experimental operations
Program temperature control and atmosphere control
Kejia electric furnace 1200 ℃ box type muffle furnace supports multi-stage program temperature control (such as 30 stages), which can accurately simulate complex heat treatment curves. At the same time, some models are equipped with inlet and outlet ports, which can introduce inert gases (such as argon) or reducing gases (such as hydrogen) to meet the requirements of atmosphere protection experiments. For example, catalyst preparation requires calcination under an inert atmosphere to avoid oxidation, which ensures controllable experimental conditions.

Security protection design
Kejia electric furnace muffle furnace is usually equipped with functions such as over temperature protection, couple breaking protection, door opening and power-off, and adopts a double-layer furnace shell structure to reduce the external surface temperature. For example, when the temperature inside the furnace exceeds the set value, the system will automatically cut off the power supply; When the furnace door is opened, heating immediately stops to avoid the risk of burns. These designs greatly enhance the safety of the experiment.

3. Wide application in experimental field
material science
Ceramics and Glass: High temperature sintering, glass melting and forming.
Metal materials: heat treatment, alloying research.
Powder metallurgy: sintering and densification of metal powders.

Chemistry and Chemical Engineering
Catalyst preparation: high-temperature activation, calcination of supported catalysts.
Thermal decomposition analysis: Study the thermal stability of materials using a thermogravimetric analyzer.
Elemental analysis: sample ashing, organic matter burning.

Geology and Mineralogy
Rock and mineral melting: simulating the high-temperature environment inside the Earth.
Phase transition research: Analyzing the structural changes of minerals at high temperatures.

Education and Research
Experimental teaching: Heat treatment experiments for courses such as materials science and geology.
New material research and development: exploring the properties of new materials under high temperature conditions.

4. Equipment maintenance and experimental efficiency
Maintainability
Heating elements (such as silicon molybdenum rods) are usually designed modularly for easy replacement. Furnace materials (such as ceramic fibers) have low thermal capacity characteristics, which can quickly heat up and reduce energy consumption.

Data recording and analysis
Customizable support for computer connection, real-time recording of temperature curves and experimental data. The temperature time curve can be exported through the supporting software for subsequent analysis of the material phase transition process.

Large scale experimental 1200 ℃ box type muffle furnace (click on the picture to view product details)

5. Summary
As a commonly used heat treatment equipment in university laboratories and industrial and mining enterprise laboratories, the 1200 ℃ box type muffle furnace is highly favored by students, teachers, and others due to its advantages of low price and simple operation. Before choosing, it is recommended to communicate with relevant technical personnel so that a more suitable 1200 ℃ box type muffle furnace can be selected for one's own experiment!Click to learn more muffle furnaces! Or click on online customer service to learn more about product information!