Serpentine micro powder grinding mill

Serpentine micro powder grinding mill
Serpentine commonly forms shapeless masses or sometimes the fibers that make the safe form of asbestos. Serpentine comes in multicolored green, gray, and black and has a distinctive dull to greasy luster and a greasy feel. Compared to other dark rocks, serpentine is soft (H = 3).
The vast majority of calcium carbonate used in industry is extracted by mining or quarrying. And how to get the pure calcium carbonate powder, the Serpentine micro powder grinding mill will be your best choice.
Serpentine micro powder grinding mill plant usually consists of grinding mill main unit, classifier, powder collector, dust cleaner, induced draft fan, muffler, sound-proof room, crusher machines, bucket elevator, storage hopper, and vibrating feeder.
>>Introduce of Serpentine micro powder grinding mill:
Serpentine micro powder grinding mill can be used in pulverizing non-inflammable, non-explosive and brittle materials with Moh’s hardness under nine, such as calcite, kaolin, limestone, calcite, barites, carbon black, mica, quartz etc. With the development of high-tech industry, fine and superfine powder is widely applied in various fields, Clirik Serpentine micro powder grinding mill become more and more requires by various industries.
Clirik Serpentine micro powder grinding mill working principle is when the Serpentine micro powder grinding mill is at work, all the grinding rollers are rolling in the ring, and the materials are driven to the edge of the turnplate by the centrifugal force and fall down into the grinding chambers where the materials are repeatedly pressed, crushed and grinded by the rollers.
>>Working principle of Serpentine micro powder grinding mill:
Clirik Serpentine micro powder grinding mill working principle is when the Serpentine micro powder grinding mill is at work, all the grinding rollers are rolling in the ring, and the materials are driven to the edge of the turnplate by the centrifugal force and fall down into the grinding chambers where the materials are repeatedly pressed, crushed and grinded by the rollers.
After crushed by hammer crusher, the large materials become small ones and are sent to storage hopper by elevator, edge of then evenly sent to the upper distribution plate of the turnplate by vibrating feeder and sloping feeding pipe. The high-pressure air blower constantly inhales air within the grinding mill and, in turn, the air flow with crushed materials are brought to the classifier whose high-speed impeller will screen the airflow: the unqualified particle size will fall and return to the mill for being reground while the qualified particle size mixed with air will go into the cyclone powder collector. Most of the qualified powders will fall an exit from the discharging valve at the bottom; a small proportion of the fine powders, with airflow, moves to the dust cleaner, and clings to the surface of the filter bags. At the same time, the fine powders clinging to the surface fall down by the sudden vibration of the filter bags, which is caused by the instantly ejected high-pressure gas controlled by the pulse valve. The materials from the above two lots are sent by the conveyor at the bottom to get finished powders packed. In addition, filtered clean air will be emitted from the air outlet of muffler in the end.