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I. Kashlev, V. Strakhov (2018)
Optimization of Anthracite Calcination in Electric FurnacesCoke and Chemistry, 61
V. Strakhov (2008)
Utilizing Gorlovsk Basin anthracite in metallurgical productionCoke and Chemistry, 51
(2005)
Criteria for evaluation of coals for converter steel production, Izv. Vyssh
(1996)
Preparation of Listvyansk anthracite for production of electrode mass
(1997)
Use of anthracite for cast iron smelting in cupolas
I. Kashlev, V. Strakhov (2019)
Production of Carbon Materials from Nonclinkering Coal in Electric Roasting FurnacesCoke and Chemistry, 62
(1998)
Comprehensive assessment of coals as substitutes for coke in blast furnace production, Izv
V. Strakhov, A. Mikhailenko (2008)
Low-nitrogen coal as a carburizer in the production of special steelsCoke and Chemistry, 51
V. Lakomskii (2012)
Thermoanthracite as a high-temperature electrical conductorCoke and Chemistry, 55
(1996)
Analysis of quality of the Gorlovka anthracite as a raw material for the production of thermoanthracite in an electrocalciner in Antratsity Gorlovskogo basseina (Anthracites of the Gorlovka
A. Kaliakparov, S. Baltabaev, V. Strakhov, A. Mukhtar (2018)
Manufacture of High-Carbon Ferrochrome Using AnthraciteMetallurgist, 61
(2000)
Uglerodistoe syr’e dlya elektrodnoi promyshlennosti (Carbon Raw Material for the Electrode Industry)
(2005)
Criteria for evaluation of coals for converter steel production
(1996)
Preparation of Listvyansk anthracite for production of electrode mass , in Antratsity Gorlovskogo basseina ( Anthracites of the Gorlovka Basin )
(1998)
Comprehensive assessment of coals as substitutes for coke in blast furnace production
(1998)
Anthracite-based briquettes for steel smelting
(2005)
Manufacturing of anthracite-based products
(1996)
Preparation of Listvyansk anthracite for production of electrode mass, in Antratsity Gorlovskogo basseina (Anthracites of the Gorlovka
(1976)
Ispol’zovanie topliva v aglomeratsii (Use of Fuel in Agglomeration Processes)
Anthracite from Omsukchan Basin is investigated by up-to-date analytical methods. Information is provided regarding the composition and calorific value of the anthracite, its petrographic characteristics, the quality of its mineral component, and its thermomechanical and physicochemical properties and their variation on heating to 600–1000°C. In addition, the ease of graphitization of the anthracite and its X-ray structural characteristics are determined. In the light of its characteristics, potential metallurgical uses for the anthracite are noted.
Coke and Chemistry – Springer Journals
Published: Jun 3, 2021
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