Metallurgical and mining screening equipment is a type of equipment specially developed for the treatment of metal ores, mineral powders and tailings. It can efficiently process materials with a wide range of particle sizes. The equipment is made of high-strength wear-resistant materials, which can adapt to the harsh working conditions in mines and extend its service life. With a unique screening structure design, it can accurately distinguish coarse, medium and fine-grained materials, achieving multi-stage and high-efficiency screening to meet different process requirements. The fully sealed screening operation can effectively control the spillage of dust and reduce environmental pollution. The intelligent operating system has functions such as automatic alarm and fault diagnosis. It is easy to operate and maintain, significantly improving the production efficiency and environmental protection level of mines and metal processing.
Recommended equipment for metallurgical and mining industry applications
Applications in the metallurgical and mining industries:
- Iron ore
- Copper ore
- Lead-zinc ore
- Molybdenum ore
- Tungsten ore
- Coal
- Blast furnace slag
- Steel slag
- Iron powder
- Alloy steel powder
- Copper powder
- Tungsten powder
- Molybdenum powder
- Titanium powder
- Nickel powder
STANDARD
Metallurgical and mining screening equipment is equipped with an efficient internal and external air pressure balancing system. All components are formed through a one-time rolling process and produced in a modular manner, ensuring excellent overall airtightness of the equipment. This prevents dust from leaking during the screening process and avoids harm to the working environment and the health of operators.
The equipment is equipped with a professional dust collector. During the screening operation, it can promptly and effectively collect the generated dust into the dust collector, achieving zero dust spillage, keeping the working area clean, and reducing environmental pollution. At the same time, through the recycling of dust, material waste is effectively avoided, and the utilization rate of resources is improved.
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