Application Of Glove Box In Lithium Ion Battery Manufacturing Sector
one. Security complications in the method of Lithium Battery Glove Box ion battery tests, output, transportation and use
Protection is to know no matter whether the substance (pure subject) or its elements (mixtures) are flammable, explosive, reactive, disease-causing, very poisonous, radioactive, corrosive, environmentally polluting, and so on .
The transporter (may well leak), the operator (could get hold of), the stop products user (use protection), and of course environmental security.
2. Methods to safety problems
The resolution to the basic safety problem of lithium ion batteries is predominantly in the test and manufacturing approach.
Owing to the particularly high oxidizability of lithium metallic to water vapor and oxygen, the essential conditions and gear necessities for the improvement of lithium ion polymer batteries are quite demanding, no matter of past testing or assembly, they need to be in drinking water and oxygen concentration Carried out in extremely small setting, such as glove box h2o, oxygen concentration is fewer than 1PPM.
In the producing system of lithium batteries, h2o is the most important enemy. Water might decompose the electrolyte and affect the performance of the battery. H2o will also respond with the optimistic and damaging materials, so when filling the battery, it wants to be carried out in a glove box with a lower humidity material, and it can only be taken out of the glove box following filling and sealing.
3. Appropriate basic safety steps — test equipment (functioning atmospher
>Etelux glove box is also known as tremendous cleanse glove box. The layout functionality of the glove box is to manage the setting to oxygen articles <1ppm and water content <1ppm. This process is achieved through an air purification system equipped with automatic valves and easy to install.