The possibility of using high-quality fused magnesia in the manufacture of crucibles for vacuum-induction melting

The possibility of using high-quality fused magnesia in the manufacture of crucibles for vacuum-induction melting

The prospect of using crystalline fused magnesia (FL LC) in the manufacture technology of melting crucibles by the method of isostatic pressing is shown. It has been established that the production of a material based on MgO using concrete technology is limited to the hydration and loosening of the...

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Bibliographic Details
Published in:Litʹë i metallurgiâ no. 3; pp. 60 - 64
Main Authors: Krasnii, B. L., Ikonnikov, K. I., Anikanov, V. S., Galganova, A. L., Mikhailov, M. A.
Format: Journal Article
Language:English
Published: Belarusian National Technical University 16-10-2019
Subjects:
brucite
cobalt
crucibles
fused magnesia
heat-resistant alloys
isostatic molding
nickel
tin
vacuum induction furnace
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Summary:The prospect of using crystalline fused magnesia (FL LC) in the manufacture technology of melting crucibles by the method of isostatic pressing is shown. It has been established that the production of a material based on MgO using concrete technology is limited to the hydration and loosening of the structure due to the formation and subsequent decomposition of brucite (native magnesia). The physical and mechanical characteristics of the obtained products are given. The effect of the CaO/SiO 2  ratio on the corrosion and erosion resistance of products is considered. The raw material should have a molar ratio of these oxides of more than 1,7. Pressed crucibles were tested in the production of nickel, cobalt and tin based alloys in a vacuum induction furnace. The parameters of operation of products in the enterprise are shown. The effect of clogging by crucible materials during smelting of pure nickel has also been studied. The absence of contamination of the melt with crucible materials such as silicon dioxide, aluminosilicates and oxide films, etc., has been established.
ISSN:1683-6065
2414-0406
DOI:10.21122/1683-6065-2019-3-60-64