Results are provided for a study of the slag resistance of periclase-carbon specimens based on modified phenol formaldehyde resin using different forms of filler, i.e., sintered and fuzed periclase. It is established that penetration of molten slag and its reaction with refractory is independent of the form of periclase filler. There is a reduction in slag penetration into refractory with introduction of modifying additions.
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References
G. É. Solovushkova, “State of work and tendency in the development, production and use of carbon-containing and carbon-free refractories,” Ogneupory, No. 4, 35 (1991).
M. Bavand-Bandachali, H. Sarpulaki, F. Golestani-Fard, et al., “Study of corrosion of Mg) – C-refractories based on a spinel binder with reaction with silicate-containing slags,” Ogneupory Tekhn. Keram., No. 10, 25 – 30 (2009).
S. Zhang, N. Marriott, and W. Lee “Thermochemistry and microstructures of MgO–C refractories containing various antioxidants” J. Europ. Ceramic Society, No. 21, 1037 – 1047 (2001).
W. Lee and S. Zhang, “ Melt corrosion of oxide and oxide-carbon refractories,” International Materials Reviews, No. 44, 77 – 104 (1999).
A. S. Gokce, C. Gurcan, S. Ozgen, et al., “The effect of antioxidants on the oxidation behaviour of magnesia-carbon refractory bricks,” Ceramics International, 34, 323 – 330 (2008).
I. D. Kashcheev, Oxide-Carbon Refractories [in Russian], Intermet Inzhiniring, Moscow (2000).
D. E. Denisov, S. M. Épshtein, A. A. Karyavin, et al., “Carbonization of phenol formaldehyde binder in periclase filler,” Ogneupory, No. 4, 104 (1989).
L. V. Mironova, Yu. A. Borisova, and Yu. N. Kochubeev, et al., “New formulations of fused periclase-based refractory materials for the lining of steel ladles ,” Refractories and Industrial Ceramics, 45, No. 3, 154 – 156 (2004)
T. V. Yarushina, O. F. Shatilov, and V. N. Koptelov, “New carbon-containing refractories for the lining of steel-teeming ladles from the Kombinat Magnezit Joint-Stock Co.,” Refractories and Industrial Ceramics, 44, No. 1, 17 – 21 (2003).
O. N. Borisenko and G. D. Semchenko, “Effect of form of modifier and periclase filler on the properties of periclase-carbon refractories based on phenol formaldehyde resin,” Ogneupory Tekhn. Keram., No. 7, 11 – 15 (2008).
O. N. Borisenko, G. D. Semchenko, A. V. Shatalova, et a., “Optimization of MgO–C-refractories based on modified phenol formaldehyde resin,” Zbirnik Naukovikh Sprats’ VAT, Ukr. NDI Vognetriviv imeni A. S. Berezhneva, No. 108, 49 – 53 (2008).
O. N. Borisenko, G. D. Semchenko, V. V. Povshuk, et al., “Development of energy saving technology for unfired periclase-carbon refractories based on modified phenol formaldehyde resin,” Novye Ogneupory, No. 4, 34 (2009).
G. D. Semchenko, O. ¹ Slepchenko, and T. V. Solovei, Ukraine patent 79197, MPK7 C 04 B 35/035, C 04 B 35/622, C 04 35/04, C 04 35/63, Production method for magnesia-carbon refractories. Claim and patent holder national University “National Technical University,” No. 200509095, Claim 09.26.2005, Publ. 05.25.2007, Byul. No. 7.
O. N. Borisenko, G. D. Demchenko, and A. V. Shatalova, “Study of the microstructure of modified periclase-carbon refractories with use of a different forms of periclase as filler,” Vestn. Nats. Tekhn. Univ. Khar’kov Politekh. Inst., Collected Sci.Work: thematic Issue “Chemistry, chemical technology and ecology,” No. 38, 174 – 177 (2008).
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Translated from Novye Ogneupory, No. 11, pp. 41 – 44, November 2010.
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Borisenko, O.N., Semchenko, G.D. & Il’icheva, T.V. Slag resistance of periclase-carbon refractories based on modified phenol formaldehyde resin. Refract Ind Ceram 51, 433–436 (2011). https://doi.org/10.1007/s11148-011-9345-6
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DOI: https://doi.org/10.1007/s11148-011-9345-6