In organic mineral processing reagents, the type of flocculant based on polyacrylamide is the most abundant. Polyacrylamide molecules can adapt to various types of solid-liquid split pigment companies in mineral processing through tailoring. Effectively handle suspension, soluble solids, and ore with concrete additives under various pH conditions.
Synthetic adhesives can effectively improve the wet and dry intensity of the ball so that the ball has excellent dryness and other types of surface properties. In addition, it can effectively prevent the addition of silicon to the ball, which provides favorable conditions for the direct restoration of the iron in steelmaking. This process is mainly achieved through the destruction of crystalline cores, the dispersion of the agglomeration, and the transistor deformation. When the amount of chemical measurement is greater than the amount of anti-scalp agent, most of the scaling will exist in the solution without precipitation, and the anti-scalp agent can be applied to the local energy and thermal facilities of the mines.
The role of a dispersant is exactly the opposite of the flocculant. It can form a single particle after adsorbing on the surface of the mineral. Most dispersers are based on sodium polyacrylate with low molecular weight. Differentials are mainly used for the degeneration of scattered mineral pigments and regulating the fluidity of gold ore with high clay content. During the abrasive process, it can also effectively reduce the viscosity of the slurry, thereby promoting the smooth progress of the abrasive process. For the slurry with high solid content, the abrasive can achieve the purpose of increasing the amount of grinding machine and reducing the number of abrasives by effectively and finely grinding.
Many reagents play a key role in mineral processing. At present, the improved new pharmaceuticals must not only meet the technical requirements but also meet the requirements of environmental protection.