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SCM Series Super Thin Grinding Mill

Leveraging our company's extensive 15+ years of production expertise, we've assimilated cutting-edge technologies from both domestic and international arenas in the same field. Our concerted efforts, involving top-tier powder processing experts, have entailed rigorous investigation, exhaustive research, and relentless experimentation. Through this iterative process, we've successfully engineered the Super Thin Grinding Mill (Ultrafine Mill) — a pinnacle achievement characterized by its high efficiency and affordability.

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  • The application of SCM Series Super Thin Grinding Mill:

    The SCM Series Super Thin Grinding Mill (Ultrafine Mill) finds its primary application in processing mineral products within metallurgy, construction, chemistry, fertilizer, and mining industries. Capable of producing powder from non-flammable and non-explosive mineral materials, it handles substances with a Mohs hardness below 9 and humidity under 8%. These include barite, limestone, quartz, calcite, granite, porcelain clay, basalt, gypsum, and more. Additionally, it accommodates materials with a hardness less than 6, such as calcite, chalk, dolomite, kaolin, bentonite, and various others like pyrophyllite, vermiculite, and attapulgite.
    The versatile SCM series super thin grinding mill finds widespread usage in diverse settings, including silica, quartz, and manganese grinding plants, limestone and iron ore processing stations, coal and bauxite grinder plants, cement factories, and applications within the copper and chrome mining industries. Its adaptability extends across multiple sectors, making it an integral part of production lines in various industrial domains.

  • Features & Benefits of SCM Series Super Thin Grinding Mill:

    1. Enhanced efficiency: The Super Thin Grinding Mill (Ultrafine Mill) yields a 40% higher output compared to airflow and whisk mills, maintaining this advantage under similar conditions of particle size and motor power.
    2. Environmental consciousness: Integration of dedusters and mufflers reduces pollution and noise, meeting stringent national environmental protection standards.
    3. Superior safety: With no axle tree or bolts in the grinding chamber, issues like bearing wear and sealing parts degradation are eliminated, ensuring a secure operation without the risk of loose bolts.
    4. Precision in particle size: Achieving a finished size as fine as d97≤5μm underscores the precision of the Super Thin Grinding Mill (Ultrafine Mill).
    5. Optimal spare parts utilization: The mill demonstrates a high utilization rate of spare parts, contributing to its longevity and cost-effectiveness.

  • Working principle of SCM Series Super Thin Grinding Mill:

    The primary motor of the Super Thin Grinding Mill (Ultrafine Mill) propels the main axle and each layer's rotation through a reducer. A dial mechanism moves multiple rollers within the ring using pintles. Large materials are initially crushed into smaller particles by a hammer crusher and then conveyed to a storage facility via an elevator.
    A vibrating feeder evenly delivers materials to the center of the upper dial. Driven by eccentricity, the materials descend into the ring, where rollers press, crush, and mill them into pieces. Following the initial crushing, materials move through subsequent layers.
    A high-pressure centrifugal blower pumps outside air into the machine. Coarser powder is directed towards the classifier for further processing. This process involves sequential stages to effectively crush, refine, and classify materials within the mill.

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