The fundamental principle differences determine the irreplaceability and complementary potential of PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC in different industrial scenarios. In terms of separation efficiency and processing capacity, magnetic separation technology demonstrates overwhelming advantages, especially when handling fine-grained and weakly magnetic materials that traditional methods struggle to process.
Taking high-gradient PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC as an example, its magnetic field strength can reach more than 20,000 Oersteds. Combined with high-gradient medium, it can efficiently capture weak magnetic impurities such as hematite and biotite with particle size less than 5 microns. The impurity removal rate in quartz sand is generally more than 90%, and even more than 98%, meeting the strict standards of photovoltaic grade and semiconductor-grade high-purity quartz sand.
Furthermore, the superconducting PTMS LITHIUM COBALT ACID MATERIAL MAGNETIC magnetic separation technology utilizes low-temperature superconducting coils to generate a stable and powerful magnetic field (reaching over 10 Tesla). Not only does it far exceed conventional electromagnetic equipment in magnetic strength, but it also boasts extremely low energy consumption. With processing capacity 10 to 30 times that of traditional equipment, a single unit can process thousands of cubic meters of water per hour, making it suitable for large-scale industrial water treatment systems.
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