Steklo i Keramika (Glass and Ceramics). Monthly scientific, technical and industrial journal

 

ISSN 0131-9582 (Online)

On the color centers in glasses

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Autors: Yu. A. Guloyan
  • Continuous numbering: 1005
  • Pages: 23-26
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Heading: Science for glass production

The analysis of materials by types and centers of staining for the most used colored glasses has been carried out. The coloring of glasses with selenium is considered in more detail from the standpoint of modern concepts of the structure of dyes and the formation of coloring centers. An updated classification of types and centers of staining in glasses is presented. Tab. 1, ill. 1, bibliography: 18 titles.
Esin OA, Geld PV Physical chemistry of pyrometallurgical processes. Part 2.M .: Metallurgy, 1966.704 p. Bezborodoe M.A., Synthesis and structure of silicate glasses. Minsk: Science and Technology, 1968.450 p. Vargin V.V. Production of colored glass. M.-L .: Gizlegprom, 1940.284 p. Dauealter A. N. Crystal, colored and opal glasses. Moscow: Gizlegprom, 1957.235 p. Weyl W. Colored Glasses. Sheffield: Sosiety of Glass Technology, 1951 (reprinted 1992). 541 p. Bates T. Ligand field theory and absorption spectra glasses of transition metal ions in glasses // Modern aspects of the vitreous state. 1962. V. 2. P. 166-174. Bamford C. Application of ligand field theory to colored glasses // Physics and chemistry of glasses. 1962. V. 3. N 5. P. 141-156. Karlson K. Absorption of iron in amber glass // Glastekhnick Tidskrift. 1969. V. 24. N 1. P. 13 - 19. Guloyan Yu. A. Conditions for obtaining amber and brown glasses // Glass and ceramics. 2005. N 10.S. 3 - 5. Guloyan Yu. A. Conditions for producing amber and brown glass // Glass and Ceram. 2005. V. 62. N 9 - 10. P. 301 - 303. Guloyan Yu. A. Complex assessment of ionic coloration of glasses with compounds of transition metals // Glass and ceramics. 2007. N 5. S. 7 - 12. Guloyan Yu. A. Complete analysis of ionic staining of glasses by transition-metal compounds // Glass and Ceram. 2007. V. 64. N5-6. P. 153-158. Guloyan Yu.A. Colloidal staining of glasses: unconscious nanotechnologies // Glass and ceramics. 2011. N 6. P. 3 - 14. Petrov I. S. Selenium // Chemistry and life. 1971. N3. S. 28-33. Suzdalev I.P. Nanotechnology: physical chemistry of nanoclusters, nanostructures and nanomaterials. Moscow: KomKniga, 2009. 420 S. Kotsik I., Nebrzhensksh I., Fanderlzh I. Glass staining. Moscow: Stroyizdat, 1983.212 p. Volf M. Chemical approach to glass. Amsterdam - Oxford - New York - Tokyo, 1984.594 p. Bogomolov V.N., Poborchsh V.V., Kholodkevich S.V., Shagin S.I. // Letters to ZhETF. 1983. T. 38. 9. P. 439 - 441. Arbuzov VI Fundamentals of radiation optical materials science. SPb., 2008.284 p. Guloyan Yu. A. Relaxation phenomena in glass technology // Glass and ceramics. 2010. N 3.P. 10 - 21. Guloyan Yu. A. Relaxation phenomena in glass technology // Glass and Ceram. 2010. V. 67. N 3 - 4. P. 71 - 81.

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Keywords

coloring, coloring centers: ionic, colloidal, molecular, radiation

Use the reference below to cite the publication

Yu. A. Guloyan On the color centers in glasses. Steklo i keramika. 2011:84(9):23-26. (in Russ). UDK 666.24/25
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Lyudmila Vladimirovna Sokolova