Low ferrosilicon 15 powder has gained widespread attention across the industry as a key material, driven by the continued advancement of mineral processing technology.
Two Key Production Methods
Low ferrosilicon 15 powder is typically classified into two types based on production technique: milled and atomized, each offering distinct physical features tailored for different mineral processing applications.**Milled Type**: This method involves mechanically crushing and ball milling bulk low ferrosilicon alloy into powder. It yields particles with irregular shapes, rough surfaces, and a broader size distribution. Its lower production cost makes it suitable for applications where particle uniformity is not a strict requirement.
**Atomized Type**: This approach uses high-pressure gas or water to rapidly cool molten low ferrosilicon, forming spherical particles with more uniform size and excellent flowability. These properties make atomized powder ideal for precision-oriented mineral processing.
Application Scenarios in Mineral Processing
Both milled and atomized low ferrosilicon powders are widely used in the mineral processing sector, each serving distinct purposes:Milled Ferro Silicon Powder: Leveraging its economic advantage, it is commonly applied in dense medium separation of bulk minerals like Copper ore and Chrome ore. It helps enhance separation efficiency while reducing operational energy costs.
Atomized Ferro Silicon Powder: Owing to its high fluidity and dispersibility, this type is preferred in processes that demand tight control and fine separation. It provides a more stable medium for the recovery of fine-grained minerals, boosting separation accuracy and yield.
In practice, mineral processing plants choose the appropriate type of low ferrosilicon powder based on ore characteristics, separation accuracy, and cost targets.