Abstract
The synthetic process of a high-charge-density sodium fluorophlogopite mica, Na-4-mica (with an ideal chemical composition of Na4Mg6Al4Si4O20F4·nH2O), using kaolinite as a raw material, has been investigated with respect to developing a simplified procedure and controlling crystal size. A fine and highly crystalline phase of the hydrated Na-4-mica, which is essential for practical applications, could be easily prepared from a mixture of kaolinite (or metakaolin) and magnesium nitrate using NaF flux at temperatures below 800°C. An increased mass of NaF flux in the simplified process at 800°C yielded somewhat larger and well-dispersed Na-4-mica crystals with hexagonal and plate-like shapes of 2–3 μm in size. Cation-exchange equilibria was studied for alkaline earth metal ions of Sr, Ba, and Ca, as well as transition metal ions of Cu and Pb, at room temperature using the hydrated Na-4-mica synthesized by the simplified process. The order of selectivity for the alkaline earth metal ions was Ba2+ > > Sr2+ > Ca2+, and the cation-exchange capacities were 197, 83, and 77 mequiv (100 g)−1, respectively.
ACKNOWLEDGMENT
This work was supported by the Interfacial, Transport and Separations Program, Chemical and Transport Systems, Division of the National Science Foundation under Grant CTS-9612714.