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ArticleName New approach to drying high-density lining materials
ArticleAuthor A. V. Savin, V. E. Nikolskiy, D. V. Vokhmintsev, V. O. Golubev, P. G. Smirnov
ArticleAuthorData

A. V. Savin, V. E. Nikolskiy, D. V. Vokhmintsev, V. O. Golubev, P. G. Smirnov, ZAO Concern «Jet Technologies»; savin@jettechnologies.ru

Abstract

It was established that the basic mechanism of defect formation in lining at the drying stage is mechanical stress rupture resulting from high internal pressure developed during filtration of gaseous products of drying. Design principles of the drying process are suggested that help to obtain the maximum durability of lining with minimal time and energy consumption. Examples of implementation of the optimal drying technology are provided.

References

1. Yansen Kh., REFRAFLEX – A Binding Agent for MGO-C Refractory Materials Based on Catalytically Activate Synthetic Resin; Non-Ferrous Metals, 2007, Vol.10, pp. 22-26 (in Russian).
2. Egorov I. V., Zamyatin V. L., Anelkin N. I., Brilev S. B., Biryukov O. E., Results of CERALIT Solid-Cast Refractory Lining Operation in Heating Furnaces, Steel, 2008, Vol. 7, pp.77-79 (in Russian).
3. Spirin V. A., Savin A. V., Chistyakov V. V., Sagan I., Dobshikov A., Belkov A., Control System for Installation of Drying and High-Temperature Heating of Steel-Teeming Ladles, Modern Technologies of Automation, Vol. 3, 2000, pp. 66-71 (in Russian).
4. Lorenz V., Loktev A., Garten V., Bechmann D., MARECO Company on the Global Market of Equipment for Drying, Reheating and Thermal Conditioning of Metallurgical Ladles and Blast Furnace Chutes, New Refractory Materials, 2007, Vol. 12, pp. 19-27 (in Russian).
5. Savin A. V., Nikolskiy V. E., Vokhmintsev D. V., Golubev V. O., Smirnov P. G., Drying of Advanced Lining Materials: Challenges and Solutions, Non-Ferrous Metals, 2010, presented for publication (in Russian).

Full content New approach to drying high-density lining materials
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