Abstract
The crystal nucleation (I) and growth (U) rates of Na2O·2CaO·3SiO2 glasses with increasing additions of Li2O were measured for the primary crystalline phase over wide and overlapping temperature intervals. A partial section of the phase diagram Na2O·2CaO·3SiO2–Li2O was constructed via DSC analysis and shows a narrow range of solid solution formation that is close to that of Na2O·2CaO·3SiO2. In the four-component system (Na2O–Li2O–CaO–SiO2), a pseudo-binary eutectic system of Na2O·2CaO·3SiO2–Li2O·SiO2 exists. The role of Li2O in the formation of the crystalline phases was investigated using DSC and X-ray analyses. The addition of Li2O results in decreases in the glass transition (Tg) and liquidus (TL) temperatures. With increasing Li2O content, both the reduced glass transition temperature Tgr (Tgr=Tg/TL) and the fragility index, m, pass through a minimum. These findings extend and confirm the known inverse correlation between Tgr and Imax (lower values of Tgr correspond to higher values of Imax) and provide evidence for a similar correlation between m and Imax. When using the low temperature data for the crystal growth rate (U) the viscosity (η) and diffusivity (D) were decoupled at T<1.1 Tg. Next, a parameter (U·η at Tg) that characterized the decoupling phenomenon was proposed.
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