The faster the open circuit voltage drops, this is due to the increased polarization inside the battery and the increased resistance, resulting in the rapid reduction of the voltage output capacity. In addition, the high rate of discharge will also increase the heat production, which will not only affect the performance and life of the battery, but also may bring safety risks. Therefore, to achieve the optimal PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal effect, we need to find a suitable discharge current range.
Because too much heat can lead to irreversible changes in the chemicals inside the battery, and even cause thermal runaway. Battery life is also significantly reduced because of the combination of these adverse factors. A similar rule may also exist in the PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal process. Too high discharge current may lead to excessive electric field intensity, which can cause some adverse reactions.
For example, it may cause excessive loss of iron removal media, or cause too drastic chemical reactions to produce some unnecessary by-products and affect the purity and effect of PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC iron removal. The too low discharge current may not provide enough energy to drive the iron removal reaction, making the iron removal inefficient.
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