In the smelting of high-end metallic materials, the "cleanliness" of molten steel often determines the upper limit of the final product's performance.
As a key raw material with a silicon content of no less than 98%, industrial silicon is widely used in the production of silicon-aluminum alloys, organosilicon, and new energy materials.
In the global wave towards sustainable development, traditional industries are undergoing a profound green transformation.
High-purity ferrosilicon, as a low-impurity ferrosilicon alloy, plays an irreplaceable role in deoxidation and alloying processes. Its high purity and compositional stability are the core guarantee for inhibiting inclusion formation and optimizing rolling
By adjusting the silicon content, the properties of the alloy can be precisely controlled to meet the needs of different application scenarios.
Low-iron ferrosilicon alloys have emerged to address this need—with their extremely low iron content, ultra-low impurity levels, and excellent chemical stability, they not only significantly improve the mechanical and oxidation resistance properties of st