Читать книгу Encyclopedia of Glass Science, Technology, History, and Culture - Группа авторов - Страница 54

1 1 Shakhmatkin, B.A., Vedishcheva, N.M., and Wright, A.C. (2001). Thermodynamic modeling of the structure of glasses and melts, single‐component, binary and ternary systems. J. Non‐Cryst. Solids 293–295: 312–317.

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6 6 Robie, R.A., Hemingway, B.S., and Fisher, J.R. (1978). Thermodynamic Properties of Minerals and Related Substances at 298.15 K and 1 bar (105 Pascals) Pressure and at Higher Temperatures, U.S. Geological Survey Bulletin, vol. 1452. Washington, DC: U.S. Government Printing Office.

7 7 Barin, I., Knacke, O., and Kubaschewski, O. (1973 and 1977). Thermochemical Properties of Inorganic Substance. Berlin: Springer.

8 8 Chase, M.W. Jr., Davies, C.A., Downey, J.R. Jr. et al. (1986). JANAF Thermochemical Tables, 3e, vol. 2 vols. New York: American Institute of Physics.

9 9 Conradt, R. (2008). The industrial glass melting process. In: The SGTE Casebook. Thermodynamics at Work (ed. K. Hack), 282–303. Boca Raton: CRC Press.

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11 11 Morey, G.W. (1938). The Properties of Glass. New York: Reinhold Publishing Corporation.

12 12 Mazurin, C.V., Streltsina, M.V., and Shvaiko‐Shvaikovskaya, T.P. (1983). Handbook of Glass Data. Pt. A: Silica Glass and Binary Silicate Glasses. Pt. B: Single‐Component and Binary Non‐silicate Oxide Glasses. Pt. C: Ternary Silicate Glasses. Pt. D: Ternary Non‐silicate Glasses. Pt. E: Single‐Component, Binary, and Ternary Oxide Glasses. Amsterdam: Elsevier, Engl. tr. 1983–93.

13 13 Bansal, N.P. and Doremus, R.H. (1986). Handbook of Glass Properties. New York: Academic Press.

14 14 Pye, D.L. (2005). Properties of Glass‐Forming Melts (eds. A. Montenaro and I. Joseph). Boca Raton, Florida: CRC Press.

15 15 Scholze, H. (1990). Glass. Nature, Structure, and Properties. Berlin: Springer.

16 16 Volf, M.B. (1988). Mathematical Approach to Glass. Amsterdam: Elsevier.

17 17 Volf, M.B. (1984). Chemical Approach to Glass. Amsterdam: Elsevier.

18 18 Seward, T.P. III and Vascott, T.P. (eds.) (2005). High‐Temperature Glass Melt Property Database for Modeling. Westerville, Ohio: The American Ceramic Society.

19 19 Lakatos, T., Johansson, L.G., and Simmingsköld, B. (1981). Viscosity and liquidus temperature relations in the mineral wool part of the system SiO2‐Al2O3‐CaO‐MgO‐Alkalies‐FeO‐Fe2O3. Glastek. Tidskr. 36: 51–55.

20 20 Hack, K. (ed.) (2008). The SGTE Casebook. Thermodynamics at Work. Boca Raton: CRC Press.

21 21 Makishima, A. and Mackenzie, J.D. (1973). Direct calculation of Young's modulus of glass. J. Non‐Cryst. Solids 12: 35–45.

22 22 Makishima, A. and Mackenzie, J.D. (1975). Calculation of bulk modulus, shear modulus and Poisson's ratio of glass. J. Non‐Cryst. Solids 17: 147–157.

23 23 Bale, C.W., Bélisle, E., Chartrand, P. et al. (2009). FactSage thermochemical software and database – recent developments. Calphad 33: 295–311.

24 24 Appen, A.A. (1949). Calculation of optical properties, density and thermal expansion of silicate glasses on the base of their composition. Rep. Acad. Sci. USSR 69: 841–844.

25 25 Conradt, R. (1999). Thermodynamics of glass corrosion. In: Analysis of the Composition and Structure of Glass and Glass Ceramics (eds. H. Bach and D. Krause), 435–446. Berlin: Springer.

26 26 Bass, J.D. (1995). Elasticity of minerals, glasses, and melts. In: Mineral Physics & Crystallography: A Handbook of Physical Constants (ed. T.J. Ahrens), 45–63. Washington, DC: American Geophysical Union.

27 27 Bennet, T.D., Tan, J.‐C., Yue, Y. et al. (2015). Hybrid glasses from strong and fragile metal‐organic framework liquids. Nature Comm. 6: 8079.