Crystallization kinetics of 1Na2O • 2CaO • 3SiO2 • glass monitored by electrical conductivity measurements

We investigated the kinetics of crystal nucleation, growth, and overall crystallization of a glass with composition close to the stoichiometric 1 Na2O center dot 2CaO center dot 3SiO(2). The nucleation and subsequent growth of sodium-rich crystals in this glass decreases the sodium content in the glassy matrix, drastically hindering further nucleation and growth. Compositional changes of the crystals and glassy matrix at different staszes of the crystallization process were determined by EDS. These compositional variations were also monitored by electrical conductivity measurements, carried out by impedance spectroscopy, in glassy, partially, and fully crystallized samples. The electrical conductivity of both crystalline and glassy phases decreases with the increase of the crystallized volume fraction. Starting at a crystallized volume fraction of about 0.5. the crystalline phase dominates the electrical conductivity of the sample. This behavior was corroborated by an analysis of the activation energy for conduction. We show that electrical conductivity is highly sensitive and can indicate compositional shifts. changes in the spatial distribution of mobile ions in the glassy matrix. Conductivity measurements are thus a powerful too] for the investgation of complex heterogeneous systems, such as partially crystallized glasses and glass-ceramics. (c) 2007 Elsevier B.V. All rights reserved.