Heating rate effects in time-dependent homogeneous nucleation in glasses
暂无分享,去创建一个
[1] J. Schmelzer,et al. Time of Formation of the First Supercritical Nucleus, Time‐lag, and the Steady‐State Nucleation Rate , 2017 .
[2] S. Krüger,et al. The TTT Curves of the Heterogeneous and Homogeneous Crystallization of Lithium Disilicate – A Stochastic Approach to Crystal Nucleation , 2016, Front. Mater..
[3] S. Krüger,et al. Lag time to crystal nucleation of supercooled lithium disilicate melts: A test of the classical nucleation theory , 2015 .
[4] C. Rüssel,et al. Nucleation inhibitors—The effect of small concentrations of Al2O3, La2O3 or TiO2 on nucleation and crystallization of lithium disilicate , 2014 .
[5] S. Krüger,et al. Stochastic nature of the liquid-to-crystal heterogeneous nucleation of supercooled lithium disilicate liquid , 2014 .
[6] Jürn W. P. Schmelzer,et al. The Vitreous State: Thermodynamics, Structure, Rheology, and Crystallization , 2013 .
[7] V. Shneidman. Heating rate effects in the transient nucleation problem. , 2007, The Journal of chemical physics.
[8] Jürn W. P. Schmelzer,et al. Homogeneous crystal nucleation in silicate glasses: A 40 years perspective , 2006 .
[9] V. Shneidman,et al. Nucleation time lag at nano-sizes , 2005 .
[10] J. Deubener,et al. Water and the glass transition temperature of silicate melts , 2003 .
[11] C. Rüssel,et al. A new explanation for the induction period observed during nucleation of lithium disilicate glass , 2003 .
[12] V. Ugolkov,et al. Nucleation of crystals in lithium-silicate glasses , 2003 .
[13] H. Behrens,et al. Quantification of H2O contents in silicate glasses using IR spectroscopy: a calibration based on hydrous glasses analyzed by Karl-Fischer titration , 2003 .
[14] Mark J. Davis,et al. Effects of thermal history on crystal nucleation in silicate melt: Numerical simulations , 2002 .
[15] Mark J. Davis. Effect of the Growth Treatment on Two‐Stage Nucleation Experiments , 2001 .
[16] M. Weinberg,et al. An assessment of crystal growth behavior in lithium disilicate glass , 2001 .
[17] Edgar Dutra Zanotto,et al. Method to estimate crystal/liquid surface energy by dissolution of subcritical nuclei , 2000 .
[18] László Gránásy,et al. Nucleation and growth in cluster dynamics: A quantitative test of the classical kinetic approach , 2000 .
[19] J. Deubener. Compositional onset of homogeneous nucleation in (Li, Na) disilicate glasses , 2000 .
[20] M. Weinberg,et al. Crystal–liquid surface energies from transient nucleation , 1998 .
[21] D. Uhlmann,et al. The fast cooling/heating rate effects in devitrification of glasses. I. Number of nucleated particles , 1998 .
[22] Mark J. Davis,et al. Influence of water on nucleation kinetics in silicate melt , 1997 .
[23] V. Shneidman. THEORY OF TIME-DEPENDENT NUCLEATION AND GROWTH DURING A RAPID QUENCH , 1995 .
[24] K. Kelton. Numerical model for isothermal and non-isothermal crystallization of liquids and glasses☆ , 1993 .
[25] J. Deubener,et al. Induction time analysis of nucleation and crystal growth in di- and metasilicate glasses , 1993 .
[26] M. Weinberg,et al. Induction time in transient nucleation theory , 1992 .
[27] A. L. Greer,et al. Nucleation in Lithium Disilicate Glass: A Test of Classical Theory by Quantitative Modeling , 1991 .
[28] Tianhe Wang,et al. Nucleation and growth kinetics of lithium disilicate and lithium metasilicate in lithia-silica glasses , 1988 .
[29] A. L. Greer,et al. Transient nucleation effects in glass formation , 1986 .
[30] Edgar Dutra Zanotto,et al. Experimental tests of the classical nucleation theory for glasses , 1985 .
[31] V. Filipovich,et al. Nucleation in silicate glasses and effect of preliminary heat treatment on it , 1981 .
[32] D. Kashchiev. Solution of the non-steady state problem in nucleation kinetics , 1969 .
[33] F. Collins. Time Lag in Spontaneous Nucleation Due to Non‐Steady State Effects , 1955, Zeitschrift für Elektrochemie, Berichte der Bunsengesellschaft für physikalische Chemie.
[34] G. Tammann. Ueber die Abhängigkeit der Zahl der Kerne, welche sich in verschiedenen unterkühlten Flüssigkeiten bilden, von der Temperatur , 1898 .