Abstract:The flotation behavior and interaction mechanism of dodecyl trimethyl ammonium chloride (DTAC) and tetrabutylammonium chloride (TBAC) with bauxite in the process of reverse flotation desilication were studied using single mineral flotation test, the adsoption of reagents and molecular dynamics simulation. The results show that compared with DTAC, TBAC can separate kaolinite and diaspore effectively at lower concentration and wider pH range. Based on the molecular dynamics simulation, the adsorption models of TBAC and DTAC on kaolinite (001) plane were constructed and optimized. Owing to the bigger head group and shorter hydrophobic group of TBAC, the contact area of TBAC on kaolinite (001) plane is larger and the CH？？？O hydrogen bond is stronger than DTAC. In addition, higher adsorption energy will be released when TBAC is adsorbed on kaolinte surface. The theoretical computations match remarkably well with the experimental results. Therefore, it can provide a theoretical basis for exploring new reagent in reverse flotation desilication for bauxite.

Key words: quaternary ammonium salt; molecular structure; dynamics simulation; reverse flotation