If the material particles are too large, iron impurities may be trapped inside and fail to be adequately affected by the magnetic field; if the material flowability is too poor, it can lead to accumulation within the magnetic separator, affecting iron removal efficiency. To enhance the effectiveness of wet PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC, operators typically pre-treat the material, such as sieving or crushing, to adjust its particle size and flowability.
Wet PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC is suitable for processing materials containing moisture. In the production and recycling of lithium battery materials, some materials may contain a certain amount of moisture due to process requirements or environmental factors. In such cases, dry magnetic separation is less applicable, while wet magnetic separation can leverage its advantages. Wet magnetic separation improves iron removal efficiency by adjusting the strength of the magnetic field and the flow state of the material.
In the wet PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC process, materials are suspended in water to form a pulp, which is then passed through magnetic separation equipment. The magnetic field generated by the equipment attracts iron impurities in the pulp, causing them to adhere to the magnetic poles. To ensure that the iron impurities are fully adsorbed, operators need to precisely control the strength of the magnetic field and the flow rate of the pulp.
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