Abstract
An analysis of methods for batch compaction and molding is performed to ensure continuous operation of the energy-saving melting chamber with a perforated layer. Approaches to solving the problem of molding the chamber layer before the start-up are discussed.
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Yu. K. Ivanov and S. K. Popov, “Melting chamber with a perforated layer of technological material, ” Steklo Keram., No. 12, 37–40 (2005).
I. I. Pereletov, A. V. Pushkin, and Yu. K. Ivanov, The Results of Studying Perforated Layer, Issue 1 [in Russian], VNIIÉSM, Moscow (1991).
I. I. Pereletov, A. B. Pushkin, and Yu. K. Ivanov, Melting Furnace with a Very High Power-and Material-Saving Effect, Issue 2 [in Russian], VNIIÉSM, Moscow (1991).
V. I. Nazarov, R. G. Melkonyan, and V. G. Kalygin, Technology for Compaction of Glass Batches [in Russian], Legprombytizdat, Moscow (1985).
S. S. Zhukovskii and A. M. Lyass, Molds and Rods from Cold-Hardening Mixtures [in Russian], Mashinostroenie, Moscow (1988).
I. I. Blekhman, What Can Vibration Do? “Vibration” Mechanics and Vibration Engineering [in Russian], Nauka, Moscow (1988).
L. P. Botov, A. Z. Isagulov, and V. V. Egorov, Experience and Prospects of Pulse Compaction of Casting Molds, Issue 2 [in Russian], VNIIÉSM, Moscow (1990).
V. P. Volodin, M. A. Murzabekova, and A. V. Shmidt, “Extrusion of construction profiles,” in: Chemical Industry. Series: Processing of Plastics [in Russian], NIITÉKhIM, Moscow (1991).
E. K. Voloshin-Chelpan, Theoretical Principles, Development, and Implementation of Vibration Molding from Powder Materials, Author’s Abstract of Candidate’s Thesis [in Russian], Moscow (1992).
N. S. Lamekin, Cavitation: Theory and Application [in Russian], Rusaki, Moscow (2000).
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Translated from Steklo i Keramika, No. 6, pp. 3–5, June, 2006.
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Ivanov, Y.K., Popov, S.K. & Shamshin, A.K. Selection of technology for batch compaction and formation of perforated layer. Glass Ceram 63, 175–178 (2006). https://doi.org/10.1007/s10717-006-0069-x
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DOI: https://doi.org/10.1007/s10717-006-0069-x