Graphite stone is feeded into the Jaw crusher for primary crushing by the Vibrating feeder, then the bulk material is transfered by the elevator conveyor to Grinding mill for fine grinding, and finally the finished product is out of Grinding mill and it’s fineness can reach a range of 30 -2,500 mesh.
Graphite Grinding Plant
On the graphite ore grinding, Raymond mill and high pressure roller mill can be suspended mineral processing into finished products of industrial graphite materials. Raymond mill also known as Raymond machine, replaces of Ball mill and becomes a new type Grinding mill for Mohs hardness of less than 9.3 and humidity below 6% in the non-explosive mining, chemicals, building materials, metallurgy and other industries. Joyal Raymond mill’s final product size is in the range of 30-325 Mesh and some materials can reach 1500 Mesh. High suspended roller mill’s final product size can reach 80 -425 mesh, even 1,500 mesh, which is the best choice of graphite industry.
Graphite Basics
The mineral graphite is one of the allotropes of carbon. It was named by Abraham Gottlob Werner for its use in pencils, where it is commonly called lead, as distinguished from the actual metallic element lead. Unlike diamond (another carbon allotrope), graphite is an electrical conductor, a semimetal, and can be used, for instance, in the electrodes of an arc lamp. Graphite holds the distinction of being the most stable form of carbon under standard conditions. Therefore, it is used in thermo chemistry as the standard state for defining the heat of formation of carbon compounds. Graphite may be considered the highest grade of coal, just above anthracite and alternatively called meta-anthracite, although it is not normally used as fuel because it is hard to ignite.
Graphite usually needs beneficiation, although thick-bedded amorphous graphite and vein graphite is almost always beneficiated, if beneficiated at all, by laborers hand-picking out the pieces of gangue (rock) and hand-screening the product. The great majority of world flake graphite production is crushed and ground if necessary and beneficiated by flotation. Treating graphite by flotation encounters one big difficulty: graphite is very soft and “marks” (coats) the particles of gangue. This makes the “marked” gangue particles float off with the graphite to yield a very impure concentrate. There are two ways of obtaining a saleable concentrate or product: regrinding and floating it again and again (up to seven times) to obtain a purer and purer concentrate, or by leaching (dissolving) the gangue with hydrofluoric acid (for a silicate gangue) or hydrochloric acid (for a carbonate gangue).
In the milling process, the incoming graphite products and concentrates can be ground before being classified (sized or screened), with the coarser flake size fractions (below 8 mesh, 8–20 mesh, 20–50 mesh) carefully preserved, and then the carbon contents are determined. Then some standard blends can be prepared from the different fractions, each with a certain flake size distribution and carbon content. Custom blends can also be made for individual customers who want a certain flake size distribution and carbon content. If flake size is unimportant, the concentrate can be ground more freely. Typical final products include a fine powder for use as slurry in oil drilling; in zirconium silicate, sodium silicate and isopropyl alcohol coatings for foundry molds; and a carbon raiser in the steel industry (Synthetic graphite powder and powdered petroleum coke can also be used as carbon raiser). Rough graphite is typically classified, ground, and packaged at a graphite mill; often the more complex formulations are also mixed and packaged at the mill facility. Environmental impacts from graphite mills consist of air pollution including fine particulate exposure of workers and also soil contamination from powder spillages leading to heavy metals contaminations of soil. Dust masks are normally worn by workers during the production process to avoid worker exposure to the fine airborne graphite and zircon silicate.