From "Impurity Hazards" to "Purity Assurance" - How Do Electromagnetic Iron Removers Solve the Pain Points in the Produc

In new energy industries such as lithium batteries and photovoltaics, the purity of materials directly determines the performance and safety of products. Take ternary materials as an example. Excessive iron impurities can shorten the battery's cycle life by more than 30%. If the iron content of photovoltaic-grade monocrystalline silicon exceeds 0.05ppb, the photoelectric conversion efficiency will drop sharply by 1 to 2 percentage points. In traditional iron removal methods, screens are difficult to capture fine iron filings smaller than 0.01mm, and manual sorting is inefficient and prone to missed inspections, which has become a key bottleneck restricting industrial upgrading. ​
The JC electromagnetic iron remover, with its "high-gradient magnetic field + food grade/industrial grade customized design", specifically addresses the iron removal challenges of new energy materials. With a magnetic field intensity of 3,500 to 45,000 Gauss, it can adsorb ultrafine iron impurities ranging from 0.003mm (for monocrystalline silicon) to 0.01mm (for ternary materials), meeting the strict standards of various new energy materials. Meanwhile, the equipment is compatible with various forms of materials such as "dry powder + slurry + dust", and can be seamlessly integrated into key processes such as raw material pretreatment, processing, and before finished product inspection, avoiding the secondary mixing of impurities. After being applied by a certain photovoltaic enterprise, the content of monocrystalline ferrosilicon was stabilized within 0.04ppb, the photoelectric conversion efficiency was increased to 25.3%, and the equipment operated continuously for 4,500 hours without failure, truly achieving a leap from "impurity hazard" to "purity guarantee".