Fizykochemiczny aspekt bezbarwności szkła.

• Autorzy: Klisch M.
• Języki publikacji: PL

Słowa kluczowe

PL

szkło; bezbarwność szkła; fizykochemia; kolor; optyka; własności optyczne; żelazo; reakcja utleniania-redukcji; przepuszczalność światła; analiza widmowa; skład chemiczny

EN

glass; colourless glass; physical chemistry; colour; optics; optical properties; iron; redox reaction; light transmittance; spectroanalysis; chemical composition

• Wydawca: Sieć Badawcza Łukasiewicz - Instytut Ceramiki i Materiałów Budowlanych
• Czasopismo: Szkło i Ceramika
• Rocznik: 1999
• Tom: R. 50, nr 1
• Strony: 8--16
• Opis fizyczny: Bibliogr. 23 poz., rys., tab., wykr.

Twórcy

autor

Klisch M.

• PBPH TECHGLASS, Kraków

Bibliografia

• [1] I. Fandrlik, Optical Properties of Glass (Glass Science and Technology 5) Elsevier Amsterdam 1983 p 37,
• [2] B.G. Madden, O.C. Roberts i M.P. Brungs, Colour specyfication for white glasses Glass Technology 1983,
• [3] A. Paul, Chemistry of Glasses Chapman and Hall, London, N. York
• [4] J.P. Traverse, T. Toganidis, C. Ades, Spectrofotometric analysis of ferrous, ferric and total iron content in soda-lime-silica glass. Glastech. Ber. 65,1992, Nr 8, 201-206,
• [5] C. Ades, T. Toganidis and J.P. Traverse, High temperature optical spectra of soda-lime-silica glasses and modelization in view of energetic applications. J. Non-Cryst. Solids 125, 1990, 272-279,
• [6] C. Rüssel et al., Interaction between oxygen activity of Fe2O3 dopped soda-lime-silica glass melts and physically dissolved oxygen, Glastech.. Ber. 61 (8), 1988, 209-213,
• [7] H. Müller-Simon, On the interaction between oxygen, iron and sulfur in industrial glass melts, Glastech. Ber. Glass Sei. Technol. 67 (11), 1994, 297-303,
• [8] F.W. Krämer, Contribution to basicity of technical glass melts in relation to redox equllibia and gas solubillities, Glastech. Ber. 64 (3), 1991, 71-80,
• [9] K.H. Karlsson, Covalent oxocomplexess and electrovalent coordination in glass, Glastech. Ber. 62 (3), 1989, 110-111,
• [10] F.G.K. Baucke and J.A. Duffy, Oxidation states of metal ions in glass melts, Phys. Chem. Glasses 35 (1), 1994, 17-21,
• [11] J.A. Duffy and M.D. Ingram, An interpretation of glass chemistry in terms of the optical basity concept. J. Non-Cryst. Solids 21, 1976, 373-410,
• [12] R.A. Levy, C.H.P. Lupis & P.A. Flinn, Mössbauer analysis of the valance and coordination of iron cations in SiO2-Na2O-CaO glasses. Phys. Chem. Glasses 37 (4), 1976, 94-103,
• [13] F.G.K. Baucke, Electrochemical cells for on-line measurements of oxygen fugacities in glass-forming melts. Glastech. Ber. Glass Sci. Technol. 61 (4), 1988, 87-90,
• [14] A. J. Faber, Redox control during industrial melting of cullet rich glass batches. Glass Techn. 38 (6), 1997, 189-191,
• [15] C. Rüssel, Redox reactions during cooling of glass melts - A theoretical consideration. Glastech. Ber. Glass Sci. Technol. 62 (6), 1989, 199-203,
• [16] M.B. Volf, Mathematical Approach to Glass Glass Science and Technology 9 Elsevier Amsterdam 1988 pp169-186 and 233-245,
• [17] K. M. Fyles, Modern automotive glasses. Glass Techn. 37 (1), 1996, 2-6,
• [18] A.P. Herring et al, Decolorizing soda-lime glasses. Part II, Glass Industry August 1970, 350-356,
• [19] A.P. Herring et al, Decolorizing soda-lime glasses. Part III, Glass Industry September 1970, 394-399,
• [20] E.L.Swarts Bubble generation at glass/refractoy interaces: A review of fundamental mechanism and practical consideration, Glastech. Ber. 65 (4), 1992, 87-92,
• [21] M. Cable and J.R. Frade, The effects of viscosity on the behavior of bubbles in viscous liquids, Phys. Chem. Glasses 35 (6), 1994, 231-238,
• [22] M. Cable and J.R. Frade, Theoretical analysis of the dissolution of multi-component gas bubbles, Glastech. Ber. 60 (11), 1987, 355-362,
• [23] Ulotka handlowa firmy AUER-REMY,