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Foundry Production
ArticleName Analysis of mechanisms of Inconel-718 alloy filtration on the two-layer foam-ceramic filter
ArticleAuthor A. I. Demchenko, A. A. Kuchmenko, V. A. Korovin, S. V. Belyaev
ArticleAuthorData

PJSC Ruspolimet (Kulebaki, Russia)

A. I. Demchenko, Foreman of the main production, e-mail: a.demchenko@ruspolumet.ru

 

SELEE Corporation (Hendersonville, USA)
A. A. Kuchmenko, Sales Manager

 

Nizhny Novgorod State Technical University (Nizhny Novgorod, Russia)
V. A. Korovin, Dr. Eng., Prof., Dept. of Metallurgical Technologies and Equipment, e-mail: v.korovin2015@yandex.ru
S. V. Belyaev, Cand. Eng., Associate Prof., Dept. of Technical Logistics, e-mail: beril.belyev@yandex.ru

Abstract

It is shown that the filtration of Nickel alloy using foam ceramic filters (PCF) is an effective way to reduce non-metallic inclusions. The known mechanisms of filtration of metals and alloys are considered. It is known that the mechanism of liquid metal filtration consists of four components: 1) mesh, in which particles larger than the diameter of the fi lter holes are retained at the inlet of the fi lter element; 2) mesh-cake, in which the role of the sieve is performed by non-metallic inclusions of large size, which were delayed on the upper layer during the operation of the fi rst mechanism; 3) adhesive, in which for various reasons on the stacks of filter channels delayed inclusion, the size of which is smaller than the diameter of the fi lter channels; 4) priming, in which the filter walls serve as substrates for the separation of a new non-metallic phase from the supersaturated solution. Filtration refining of Inconel 718 alloy through a double foam-ceramic filter produced by SELEE was investigated. The heat-resistant Nickel-based alloy Inconel 718, smelted at PJSC Ruspolimet, was chosen as the object of research. A ceramic coarse filter and a two-layer zirconium dioxide PCP with a porosity of 5/10 ppi were installed in front of the filling Cup. The features of the filtration mechanism of Inconel 718 alloy of vacuum-induction melting are established. When filtering the metal smelted in the VIP, only the last two mechanisms are implemented. To assess the contribution to the overall degree of filtration of each of the mechanisms, the chemical components of the delayed inclusions were analyzed.

keywords Ceramic foam filter, non-metallic inclusions, filtration mechanism, Inconel 718 alloy, metal microstructure, vacuum-induction melting
References

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