Aluísio A. Cabral scite author profile

a b s t r a c tMicroscopy methods are usually employed to estimate the number density of super critical nuclei and the resulting crystal nucleation rates, I(T). These traditional techniques rely on a double-stage treatment, i.e. the development of the nuclei at a temperature higher than the previous nucleation temperature up to a size large enough to be visible with optical or electron microscopy. These methods can give reliable results for I(T), but are rather laborious and time-consuming. On the other hand, non-isothermal (DTA/ DSC) methods are, in principle, much faster. In this paper, we experimentally test two non-isothermal methods by comparison with a traditional optical microscopy method. We found that, if they are properly employed, non-isothermal methods can give useful kinetic information, which includes the crystal number density and nucleation rates, but to get accurate quantitative data they need some preliminary information about nucleation and growth rates in the studied glass and, in addition, are as laborious as the traditional microscopy methods! Ó

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Glass-forming ability versus stability of silicate glasses. I. Experimental test

Cabral

Cardoso

Zanotto

2003

Journal of Non-Crystalline Solids

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A test of the Hrubÿ parameter to estimate glass-forming ability

Cabral

Fredericci

Zanotto

1997

Journal of Non-Crystalline Solids

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