G. E. Nagibin scite author profile

Development of a new lining material with high chemical and deformation resistance based on vermiculite is described. Properties of the objects obtained are provided that are not surpassed by overseas analogs. This achievement is due to the use of a rational combination of raw material properties and technology regime parameters. In efficiency, material based on vermiculite may replace diatomite materials used traditionally. Use of objects based on vermiculite, having a density lower by a factor of three and lower thermal conductivity by a factor of six instead of traditional heat insulation material, i.e. chamotte, opens the possibility of a reduction in material content. The higher deformation resistance of the material promotes an increase in electrolyzer service life. Therefore, objects based on vermiculite may be used successfully for heat insulation not only in non-ferrous metallurgy installations, but also in thermal power engineering equipment, and in the construction of objects for industrial and domestic purposes.

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Method of protection of cathode blocks of aluminium electrolysis cells

Ogoreltceva

Федорова

Пузанов

et al. 2020

Procedia Structural Integrity

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Development and Industrial Tests of the TiB2-Based Composite Material for Local Fractures Repairing of Electrolyzer Bottom Blocks

Nagibin

Zavadyak

Пузанов

et al. 2019

Russ. J. Non-ferrous Metals

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The composition and fabrication technology of a repair mixture consisting of unmolded corundum with a TiB 2-C composite coating wettable with aluminum for repairing local fractures of bottom blocks without interrupting electrolysis have been developed. The proposed technical solution makes it possible to decrease the bottom wear and prolong the service life of an aluminum electrolyzer by six months. To fabricate a repair mixture with an optimal composition, the titanium diboride powder with a refractory powderlike binder in ratio 50 : 50 (wt %) is used. Unmolded corundum is coated with this mixture of a binder and titanium diboride. This material is dried at 150°C and thermally treated in a carbon bed at t = 700-900°C. Calcination in a reducing gas atmosphere results in the formation of the TiB 2-C composite material with a carbon content of 15-20 wt % on the unmolded corundum surface. The qualitative evaluation of the properties of the developed composite coating shows that it has rather high hardness, wear resistance, and adhesion to the base after calcination. To perform pilot tests, the repair mixture is poured with molten aluminum, which gives the platelike repair mass of the Al-TiB 2-C composition. Pilot tests of the repair mass using an RA-400 operating electrolyzer at the pilot shop of OAO RUSAL-Sayanogorsk show that the bottom wear decreases within three months after the repair of the local fracture with uninterrupted electrolysis. This fact is evidenced by a 13% decrease in an average fracture depth with a stable current force of 4.7-4.8 kA/bloom after the repair. Thus, the local use of the repair mass retards the overall wear of the cathodic surface and makes it possible to prolong the service life of the electrolyzer.

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G. E. Nagibin

The morphological and structural features of ferrite compositions (1−x) MeFe2O4 xP2O5 prepared by plasma spraying

Magnetic and resonant properties of ferrite compositions (1 − x)MeFe₂O₄ · xP₂O₅ prepared by plasma spraying

Analysis of the properties of heat insulation materials based on Tatar deposit vermiculite

Method of protection of cathode blocks of aluminium electrolysis cells

Development and Industrial Tests of the TiB2-Based Composite Material for Local Fractures Repairing of Electrolyzer Bottom Blocks

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G. E. Nagibin

The morphological and structural features of ferrite compositions (1−x) MeFe2O4 xP2O5 prepared by plasma spraying

Magnetic and resonant properties of ferrite compositions (1 − x)MeFe2O4 · xP2O5 prepared by plasma spraying

Analysis of the properties of heat insulation materials based on Tatar deposit vermiculite

Method of protection of cathode blocks of aluminium electrolysis cells

Development and Industrial Tests of the TiB2-Based Composite Material for Local Fractures Repairing of Electrolyzer Bottom Blocks

Contact Info

Product

Resources

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Magnetic and resonant properties of ferrite compositions (1 − x)MeFe₂O₄ · xP₂O₅ prepared by plasma spraying