Mills of superfine grinding

Mills of superfine grinding

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Mills of superfine grinding: spherical, planetary, bead, colloid, industrial dace AVMELNITSY of superfine grinding: spherical, planetary, magnetic mill , colloidal, industrial mill – overview of differences.

GlobeCore manufactures high-tech ultra-fine grinding mills capable of producing powders, suspensions, sols, as well as stable colloidal solutions and other highly disperse substances. One of the most common materials created by ultrafine grinding is water-bitumen emulsion, which is widely used in road construction, waterproofing structures and roofing. C – overview of the differences.

GlobeCore manufactures high-tech ultra-fine grinding mills capable of producing powders, suspensions, sols, as well as stable colloidal solutions and other highly disperse substances. One of the most common materials created by ultra-fine grinding is water-bitumen emulsion, which is widely used for road construction, waterproofing structures and roofing.

Beaded and colloidal mills are designed for the preparation of a highly disperse substance in an aqueous medium – ultrathin suspensions, highly stable emulsions, and is a mixing machine. If a colloid mill produces disperse systems through intensive interaction of a rotating rotor and a fixed stator, the process of grinding in a bead mill passes due to collision and friction of the beads with the particles of the material.

In the cylindrical vessel of the vortex sheet (ABC) apparatus, complex processes take place between the ferromagnetic particles, the source material and the liquid, driven by the rotating magnetic field, thereby forming a vortex layer. The advantages of this device are that this interaction accelerates the grinding of the material, increasing the efficiency of production. Also a feature of ABC is its possible use as a reactor.

The installation is a prototype of planetary mills, the main difference being that the device is equipped with several drum chambers rotating simultaneously both along the central axis and around their own. Such mechanisms significantly increase the efficiency of work, tens of times higher than the force of impact on the material. Using the treatment of matter in a planetary installation, it is possible to obtain highly disperse suspensions and powders.

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