Comparative studies of the properties of fired fireclay products and products made of low-cement refractory concretes (LCC), fired at different temperatures, and non-fired concretes, used for laying the lower structure of glass-melting bath furnaces (bottom beam), have been carried out. The experimentally obtained data on thermophysical properties, thermal expansion coefficient, glass resistance of products made of NCBB and fired fireclay products are presented. The expediency of using fired fireclay products to increase the service life of the furnace is shown. Tab. 2, ill. 11, bibliography: 13 titles.
Migal V. P., Panfilova E. Yu., Ivanov V. N. et al. Mastering the production of chamotte block products for glass-melting furnaces // New refractories. 2008. N 6.S. 19-25.
Rossikhina G. S, Podkholyuzin V. V., Doroganov E. A., Doroganov V. A. Corrosion resistance of refractory products made of low-cement concretes for glass production // Glass and ceramics. 2006. N 11. S. 24 - 28.
Rossikhina GS, Podkholyuzin VV, Doroganov EA, Doroganov VA Corrosion resistance of refractories made from low-cement concretes for glass making // Glass and Ceram. 2006. V. 63. N 11 - 12. P. 381 - 385.
Rossikhina G. S, Shcherbakova N. N., Shchedrin M. P. et al. Investigation of refractory concrete materials of aluminosilicate composition by petrographic methods // Glass and ceramics. 2007. N 11. S. 28 - 31.
Rossikhina GS, Shcherbakova NN, Shchedrin MP, Tolubaeva NV, Bukina TF Investigation of refractory concrete materials with alumosilicate composition by petrographic methods // Glass and Ceram. 2006. V. 64. N11-12. P. 404 - 407.
Rossikhina G. S, Shchedrin M. P., Shcherbakova N. N. Thermal characteristics of refractory composite materials for glass production // Glass and ceramics. 2008. N 5. S. 26 - 28.
Rossikhina GS, Shchedrin MP, Shcherbakova NN Thermophysical characteristics of refractory composite materials for glass production // Glass and Ceram. 2008. V. 65. N5-6. P. 162-164.
Rossikhina G.S., Murzin I.V., Shcherbakova N.N. Production and application of refractory concretes and the practice of their application in glass-melting aggregates. Glass and Ceramics. 2008. N
9.P. 32 - 35. Rossikhina GS, Murzin IV, Shcherbakova NN Production of refractory concretes and practice in using them in glass-melting aggregates // Glass and Ceram. 2008. V. 65. N9-10. P. 324-327.
Egorov I.V., Galenko I.V., Agafonov S.A., Ivanova M.P.New refractories for glass production // Refractories and technical ceramics. 2008. N 11 - 12. P. 47 - 50.
Pivinsky Yu. E. New refractory concretes and binding systems - a fundamental direction in the development, production and use of refractories in the XXI century. Part IV. Low-cement concretes and cementless unshaped refractories // Refractories and technical ceramics. 1998. N5. S. 2-10.
Materials from Lafarge Refractories (France), 1992 15 years of using low-cement concrete in steel production. SPb., 1996.23 p.
Krikhbaum GV, Gnauk V., Laurich YO et al. Advanced matrix system, a new approach to self-leveling spinel concretes with high alumina content, low cement and water content // 39th International Colloquium on Refractories. Aachen, 1996.S. 211-218.
Migal V. P., Margishvili A. P., Skurikhin V. V. et al. Unshaped refractory materials for metallurgical industry // Ogneupory i tekhnicheskaya keramika. 2009. N 4 - 5. P. 27 - 34.
Strelov KK Structure and properties of refractories. M .: Metallurgy, 1982. P. 94.
Mamykin PS, Levchenko PV, Strelov KK Stoves and dryers of refractory plants: textbook. for technical schools. Sverdlovsk: Metallurgizdat, 1963. P. 213 - 221.
Dzyuzer V. Ya., Shvydkiy V. S. Design of energy efficient glass-melting furnaces / ed. V. Ya. Dzyuzer. M .: Teplotekhnik, 2009.S. 311 - 313.
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