Studies on Metastable Phase Equilibria in the Ternary Systems KCl–MgCl₂–H₂O and MgB₄O₇–MgCl₂–H₂O at 273 K

Abstract

The present study investigates the metastable phase equilibria of ternary systems KCl–MgCl₂–H₂O and MgB₄O₇–MgCl₂–H₂O at 273 K by an isothermal evaporation method. The solubility data of the two ternary systems were determined. According to the solubility data, the corresponding metastable phase diagrams were plotted. The equilibrium solid phases of invariant points were identified by X-ray powder diffractometry. The results show that the ternary system KCl–MgCl₂–H₂O has a double salt KCl·MgCl₂·6H₂O. Its metastable phase diagram contains three univariate curves, two invariant points and three crystallization areas, which correspond to MgCl₂·6H₂O, KCl and KCl·MgCl₂·6H₂O. Compared with the stable phase diagram at 273 K, the unsaturated phase region increases slightly in the metastable phase diagram. The ternary system MgB₄O₇–MgCl₂–H₂O is of simple co-saturated type without double salt or solid solution. The metastable phase diagram contains two univariate curves, one invariant point and two crystallization fields, and the corresponding solid phases are MgCl₂·6H₂O and MgB₄O₇·9H₂O. Comparing the metastable diagram against the stable phase diagram at the same temperature, it can be seen that the solubility of MgB₄O₇ in the metastable state obviously increased, which means that magnesium borate was significantly supersaturated under the metastable state.