The Use Method And Use of Graphite Pusher Furnace in Battery Materials?

The use of graphite pusher furnace in battery materials mainly includes heat treatment of battery materials, preparation of battery materials by graphite furnace method and performance testing of battery materials. Here are some common ways to use it:

Heat treatment: Battery materials need to be heat treated during the preparation process to improve their structure and properties. Graphite pusher furnace can provide a high temperature environment for annealing, solution treatment, sintering and other heat treatment processes to regulate the crystal structure, phase transformation and electrochemical properties of the material.

Graphite furnace method to prepare battery materials: graphite push-boat furnace can be used for graphite furnace method to prepare battery materials, such as graphite furnace method to prepare the negative electrode material of lithium ion batteries. The chemical reaction, solid reaction or gas reaction can be realized by controlling the temperature and reaction atmosphere of graphite push-boat furnace.

Performance test of battery materials: Graphite push-boat furnace can be used for performance test of battery materials, such as cyclic voltammetry, AC impedance method and other electrochemical tests. By heating the sample in a graphite push-boat furnace and conducting electrochemical tests at different temperatures, the electrochemical properties, charge transport mechanisms and stability of the material can be studied.

When using graphite pusher furnace for battery material research, the following points need to be noted:

Temperature control: According to the requirements of the battery material, set the temperature control parameters of the graphite push-boat furnace to ensure that the required high temperature environment is achieved, and maintain the stability and uniformity of the temperature.

Atmosphere control: The synthesis and heat treatment of some battery materials requires a specific atmosphere, such as oxygen, nitrogen, inert gases, etc. When using graphite pusher furnaces, the reaction atmosphere needs to be controlled and regulated to ensure the success of the material synthesis and heat treatment process.

Safe operation: When performing high temperature experiments, it is necessary to pay attention to safe operation to avoid burns and the release of harmful substances. Use personal protective equipment such as protective gloves and goggles, and operate in a well-ventilated laboratory environment.

Data analysis: For the performance research of battery materials, the experimental data needs to be analyzed and interpreted. Using appropriate test methods and instruments, the electrochemical properties of battery materials are quantitatively analyzed and compared to obtain information about material properties.

In short, the application of graphite push boat furnaces in battery materials can help researchers conduct heat treatment, preparation and performance testing, thereby improving the performance and stability of batteries.