Sheet glass from different manufacturers or from the same production, but at different periods of their production, differ in color shade and total light transmission, which depends not only on the total content of iron oxide in raw materials and glass, but also on the displacement of the Fe (II) x; Fe (III). To ensure the high quality of glass melt, the technological process of melting and molding, it is necessary to stabilize the equilibrium state of various forms of iron.
Specific recommendations for equilibrium stabilization and process control are given. Tab. 2, bibliography: 18 titles.
GOST 25551-77. Milled quartz sand, sandstone, quartzite and vein quartz for the glass industry. M .: Gosstandart, 1977.9 p.
Tarasov A.E. New technologies: glass energy // Building materials, equipment, technologies of the XXI century. 2010. N 1. P. 37 - 38.
Atkarskaya A.B., Kiyan V.I. 2001. N 10.S.8-10. Atkarskaya AB, Kiyan VI Reasons for Variations in Glass Melt Diathermancy in an Operating Tank Furnace // Glass and Ceram. 2001. V. 58.N9-10. P. 335- 337.
Sivko AP, Kovalenko AI, Smirnova LP et al. The role of iron in the processes of melting glass and mechanized molding of products // Glass. Glass Russia. 2007. October. Pp. 16 - 18.
Atkarskaya AV, Kiyan VI Influence of equilibrium of different valence forms of iron on the melting temperature and uniformity of glass in industrial production // Glass and ceramics. 2006. N 6. P.6-9. Atkarskaya AB, Kiyan VI The effect of equilibrium of heterovalent forms of iron on melting temperature and glass homogeneity in industrial production // Glass and Ceram. 2006. V. 63.N5-6.P.179-183.
Kiyan V. I., Polokhlivets E. K., Krivoruchko P. A., Atkarskaya A. B. Redox potential of glass melt in a continuous technological cycle // Glass and ceramics. 1999. N 11. P. 11 - 12.
Kiyan VI, Polokhlivets EK, Krivoruchko PA, Atkarskaya AB Redox potential of glass melt in a continuous technological process // Glass and Ceram. 1999. V. 56. N 11 - 12. P. 343 - 345.
Handbook of glass production. T. 1 / ed. I. I. Kitaigorodsky, S. I. Silvestrovich. Moscow: Stroyizdat, 1963.1026 p.
Minko N.I., Influence of the oxidation-reduction potential of the charge on the processes of cooking and glass properties. 2nd Int. conf. "Steloprogress - XXI". Saratov, 2005. P. 54 - 61.
Minko NI Influence of iron on technology and properties of glasses // Glass of the world. 2006. N 2.C.2-3.
Guloyan Yu. A., Katkova KS, Balandina TI, Belyaeva A.G. Oxidation-reduction characteristics of charges and specific features of container glass melting // Glass and Ceramics. 1990. N 11. P.4-5. Guloyan Yu. A., Katkova KS, Balandina TI, Belyaeva AG Charge redox characteristics and container-glass melting // Glass and Ceram. 1990. V. 47. N 11. P. 415 - 418.
Lipin N. G., Orlova L. A., Pankova N. A. Estimation of redox potentials of glass charges // Glass and ceramics. 1993. N 11-12 S. 12-13 Lipin NG, Orlova LA, Pankova NA Estimation of the redox potentials of glass batches // Glass and Ceram. 1993. V. 50. N 11 - 12. P. 464 - 466.
Millstone NF, Minko NI, Onischuk VI, Melnikova LI Influence of redox potentials of batch and cullet on color industrial compositions of glasses containing iron oxides // Glass and ceramics. 2000. N 3.P. 11 - 13. Zhernovaya NF, Min'ko, NI Onishchuk VI, Mel'nikova LI Effect of the redox potential of the glass batch and cullet on the tinting of industrially produced glass containing iron oxides // Glass and Ceram. 2000. V. 57. N3-4. P. 84 - 86.
Vepreva VN Control and stabilization of the redox potential of molten glass on the VVS system // Glass and ceramics. 1999. N 7. S. 32. Vepreva VN Monitoring and stabilizing of the glass melt redox potential in the vertical glass drawing system // Glass and Ceram. 1999. V. 56. N 11 - 12. P. 232.
Pankova N. A., Levitin L. Ya., Aleksandrova I. V., Gorina I. N. Methods of stabilizing the content of iron oxides in the composition of glass // Glass and ceramics. 1980. N 1. P.4-5. Pankova NA, Levitin L. Ya., Aleksandrova IV, Gorina IN Methods of stabilizing the content of iron oxides in a glass composition // Glass and Ceram. 1980. V. 37. No. 1. P. 3-6.
Minko NI, Volkova SN, Miroshnichenko II, et al. Features of the structural state of iron in glass synthesized in a beam of accelerated electrons // Glass Physics and Chemistry. 1990. T. 16. N 6. P. 852 - 859.
Yatsenko ND, Verevkin KA, Zubekhin AP Study of the phase and crystallochemical state of iron oxides in ceramic bricks by the method of NGR-spectroscopy. ceramics. 2010. N 6. S. 13 - 15. Yatsenko ND, Verevkin KA, Zubekhin AP M & ouml; ssbauer spectroscopy of phase and crystal-chemical states of iron oxides in ceramic brick // Glass and Ceram. 2010. V. 67. N5-6.P.176-178.
Kiyan V.I., Mashir Yu.I., Atkarskaya A.B. ... 2000. N 3.C.5-7. Kiyan VI, Mashir Yu. I., Atkarskaya AB Change in the redox potential of a glass melt upon introducing a melting catalyst into the glass batch // Glass and Ceram. 2000. V. 57. N3-4. P.78-80.
Control of the redox state (ROS) in the glass melt. Firm Kuhnreich-Meixner // Sb. report 6th Int. conf. "Glass containers and art glass XXI". Gus-Khrustalny, 2003.S. 41 - 42.
The article can be purchased
electronic!
PDF format
Not on sale
UDK 666.1.031
Article type:
Science for glass production
Make a request
