Homogeneous crystal nucleation in silicate glasses: A 40 years perspective

We review a plethora of relevant experimental results on internal homogeneous crystal nucleation in silicate glasses obtained in the last four decades, and their analyses in the framework of the classical nucleation theory (CNT). The basic assumptions and equations of CNT are outlined. Particular at...

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Published in	Journal of non-crystalline solids Vol. 352; no. 26-27; pp. 2681 - 2714
Main Authors	Fokin, Vladimir M., Zanotto, Edgar D., Yuritsyn, Nikolay S., Schmelzer, Jürn W.P.
Format	Journal Article
Language	English
Published	Elsevier B.V 01.08.2006
Subjects	Crystallization Crystals Glass ceramics Glass transition Nucleation Oxide glasses Silicates Thermodynamics Glass transition Thermodynamics Nucleation Crystallization Crystals Oxide glasses Silicates Glass ceramics
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Abstract	We review a plethora of relevant experimental results on internal homogeneous crystal nucleation in silicate glasses obtained in the last four decades, and their analyses in the framework of the classical nucleation theory (CNT). The basic assumptions and equations of CNT are outlined. Particular attention is devoted to the analysis of the properties of the critical nuclei, which, to a large extent, govern nucleation kinetics. The main methods employed to measure nucleation rates are described and the possible errors in the determination of the crystal number density (and, correspondingly, in nucleation rates) are discussed. The basic regularities of both time and temperature dependencies of nucleation rates are illustrated by numerous experimental data. Experimental evidence for a correlation between maximum nucleation rates and reduced glass transition temperatures is presented and theoretically justified. Special attention is given to serious problems that arise in the quantitative description of nucleation rates when using the CNT, for instance: the dramatic discrepancy between calculated and measured nucleation rates; the high value of the crystal nuclei/melt surface energy, σcm, if compared to the expected value estimated via Stefan’s rule; the increase of σcm with increasing temperature; and the discrepancies between the values of the surface energy and the time-lag for nucleation when independently estimated from nucleation and growth kinetics. The analysis of the above mentioned problems leads to the following conclusion: in contrast to Gibbs’ description of heterogeneous systems underlying CNT, the bulk thermodynamic properties of the critical nuclei generally differ from those of the corresponding macro-phase resulting simultaneously in significant differences of the surface properties as compared with the respective parameters of the planar interfaces. In particular, direct experimental evidence is presented for compositional changes of the crystal nuclei during formation of the critical nuclei and their growth from critical to macro-sizes. In addition, detailed examinations of crystal nucleation and growth kinetics show a decrease of both the thermodynamic driving force for nucleation and of the critical nuclei/liquid interfacial energy, as compared with the respective properties of the macro-phase. However, despite significant progress in understanding crystal nucleation in glasses in the past four decades, many problems still exist and this is likely to remain a highly interesting subject for both fundamental and applied research for a long time.
AbstractList	We review a plethora of relevant experimental results on internal homogeneous crystal nucleation in silicate glasses obtained in the last four decades, and their analyses in the framework of the classical nucleation theory (CNT). The basic assumptions and equations of CNT are outlined. Particular attention is devoted to the analysis of the properties of the critical nuclei, which, to a large extent, govern nucleation kinetics. The main methods employed to measure nucleation rates are described and the possible errors in the determination of the crystal number density (and, correspondingly, in nucleation rates) are discussed. The basic regularities of both time and temperature dependencies of nucleation rates are illustrated by numerous experimental data. Experimental evidence for a correlation between maximum nucleation rates and reduced glass transition temperatures is presented and theoretically justified. Special attention is given to serious problems that arise in the quantitative description of nucleation rates when using the CNT, for instance: the dramatic discrepancy between calculated and measured nucleation rates; the high value of the crystal nuclei/melt surface energy, σcm, if compared to the expected value estimated via Stefan’s rule; the increase of σcm with increasing temperature; and the discrepancies between the values of the surface energy and the time-lag for nucleation when independently estimated from nucleation and growth kinetics. The analysis of the above mentioned problems leads to the following conclusion: in contrast to Gibbs’ description of heterogeneous systems underlying CNT, the bulk thermodynamic properties of the critical nuclei generally differ from those of the corresponding macro-phase resulting simultaneously in significant differences of the surface properties as compared with the respective parameters of the planar interfaces. In particular, direct experimental evidence is presented for compositional changes of the crystal nuclei during formation of the critical nuclei and their growth from critical to macro-sizes. In addition, detailed examinations of crystal nucleation and growth kinetics show a decrease of both the thermodynamic driving force for nucleation and of the critical nuclei/liquid interfacial energy, as compared with the respective properties of the macro-phase. However, despite significant progress in understanding crystal nucleation in glasses in the past four decades, many problems still exist and this is likely to remain a highly interesting subject for both fundamental and applied research for a long time.
Author	Yuritsyn, Nikolay S. Schmelzer, Jürn W.P. Fokin, Vladimir M. Zanotto, Edgar D.
Author_xml	– sequence: 1 givenname: Vladimir M. surname: Fokin fullname: Fokin, Vladimir M. email: vfokin@pisem.net organization: Vavilov State Optical Institute, ul. Babushkina 36-1, 193171 St. Petersburg, Russia – sequence: 2 givenname: Edgar D. surname: Zanotto fullname: Zanotto, Edgar D. organization: LaMaV – Vitreous Materials Laboratory, Federal University of São Carlos, 13565-905 São Carlos, SP, Brazil – sequence: 3 givenname: Nikolay S. surname: Yuritsyn fullname: Yuritsyn, Nikolay S. organization: Grebenshchikov Institute of Silicate Chemistry, Russian Academy of Sciences, ul. Odoevskogo 24-2, 199155 St. Petersburg, Russia – sequence: 4 givenname: Jürn W.P. surname: Schmelzer fullname: Schmelzer, Jürn W.P. organization: Institut für Physik, Universität Rostock, 18051 Rostock, Germany
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Snippet	We review a plethora of relevant experimental results on internal homogeneous crystal nucleation in silicate glasses obtained in the last four decades, and...
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SubjectTerms	Crystallization Crystals Glass ceramics Glass transition Nucleation Oxide glasses Silicates Thermodynamics
Title	Homogeneous crystal nucleation in silicate glasses: A 40 years perspective
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