Issledovanie rezhimov prokalki termoantracita dlya proizvodstva nepreryvnyh samoobzhygayuschihsja elektrodov rudovosstanovitelnyh pechei

S.V. Kutuzov; V.V. Derkach; M.I. Gasik; A.P. Gorobets; Michael Gasik

doi:10.37434/sem2020.01.05

Research of the influence of thermoanthracite calcination modes for the production of continuous self-baking electrodes for ore-reduction furnaces

S.V. Kutuzov, V.V. Derkach, M.I. Gasik, A.P. Gorobets, Michael Gasik

Research output: Contribution to journal › Article

Abstract

The process of graphitization of anthracite as a carbon component of self-baking electrodes is considered. Experimental studies of the physical properties of thermoanthracite by thermogravimetry and IR spectroscopy in the temperature range 400…1400 °C were performed. Regression models of the relationship between the structure of thermoanthracite, strength, thermal conductivity and resistivity and the temperature regime of anthracite calcination were created. Ref. 9, Tabl. 4, Fig. 7.
Keywords: thermoanthracite; self-baking electrodes; thermophysical characteristics; dynamic thermogravimetry; IR spectroscopy; crystallites; density; electrical conductivity; phase composition

Translated title of the contribution	Research of the influence of thermoanthracite calcination modes for the production of continuous self-baking electrodes for ore-reduction furnaces
Original language	Russian
Pages (from-to)	43-45
Journal	Advances in Electrometallurgy
Issue number	1
DOIs	https://doi.org/10.37434/sem2020.01.05
Publication status	Published - 2020
MoE publication type	A1 Journal article-refereed

Keywords

Electrometallurgy
Electrodes
antracite
furnaces
Thermogravimetry
Calcination

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@article{433dfe89a1e64b9aabaa93848fe016e1,

title = "Issledovanie rezhimov prokalki termoantracita dlya proizvodstva nepreryvnyh samoobzhygayuschihsja elektrodov rudovosstanovitelnyh pechei",

abstract = "The process of graphitization of anthracite as a carbon component of self-baking electrodes is considered. Experimental studies of the physical properties of thermoanthracite by thermogravimetry and IR spectroscopy in the temperature range 400…1400 °C were performed. Regression models of the relationship between the structure of thermoanthracite, strength, thermal conductivity and resistivity and the temperature regime of anthracite calcination were created. Ref. 9, Tabl. 4, Fig. 7.Keywords: thermoanthracite; self-baking electrodes; thermophysical characteristics; dynamic thermogravimetry; IR spectroscopy; crystallites; density; electrical conductivity; phase composition",

keywords = "Electrometallurgy, Electrodes, antracite, furnaces, Thermogravimetry, Calcination",

author = "S.V. Kutuzov and V.V. Derkach and M.I. Gasik and A.P. Gorobets and Michael Gasik",

year = "2020",

doi = "10.37434/sem2020.01.05",

language = "Ven{\"a}j{\"a}",

pages = "43--45",

journal = "Advances in Electrometallurgy",

issn = "2415-8445",

number = "1",

}

TY - JOUR

T1 - Issledovanie rezhimov prokalki termoantracita dlya proizvodstva nepreryvnyh samoobzhygayuschihsja elektrodov rudovosstanovitelnyh pechei

AU - Kutuzov, S.V.

AU - Derkach, V.V.

AU - Gasik, M.I.

AU - Gorobets, A.P.

AU - Gasik, Michael

PY - 2020

Y1 - 2020

N2 - The process of graphitization of anthracite as a carbon component of self-baking electrodes is considered. Experimental studies of the physical properties of thermoanthracite by thermogravimetry and IR spectroscopy in the temperature range 400…1400 °C were performed. Regression models of the relationship between the structure of thermoanthracite, strength, thermal conductivity and resistivity and the temperature regime of anthracite calcination were created. Ref. 9, Tabl. 4, Fig. 7.Keywords: thermoanthracite; self-baking electrodes; thermophysical characteristics; dynamic thermogravimetry; IR spectroscopy; crystallites; density; electrical conductivity; phase composition

AB - The process of graphitization of anthracite as a carbon component of self-baking electrodes is considered. Experimental studies of the physical properties of thermoanthracite by thermogravimetry and IR spectroscopy in the temperature range 400…1400 °C were performed. Regression models of the relationship between the structure of thermoanthracite, strength, thermal conductivity and resistivity and the temperature regime of anthracite calcination were created. Ref. 9, Tabl. 4, Fig. 7.Keywords: thermoanthracite; self-baking electrodes; thermophysical characteristics; dynamic thermogravimetry; IR spectroscopy; crystallites; density; electrical conductivity; phase composition

KW - Electrometallurgy

KW - Electrodes

KW - antracite

KW - furnaces

KW - Thermogravimetry

KW - Calcination

U2 - 10.37434/sem2020.01.05

DO - 10.37434/sem2020.01.05

M3 - Article

SP - 43

EP - 45

JO - Advances in Electrometallurgy

JF - Advances in Electrometallurgy

SN - 2415-8445

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ER -