Litcius/Paper detail

Resource-Efficient Smelting Technology for FeCrMnSi Ferroalloy Production from Technogenic Wastes in an Ore-Thermal Furnace

Yerbolat Makhambetov, Armat Zhakan, Ablay Zhunusov, Sultan Kabylkanov, Azamat Burumbayev, Zhadiger Sadyk, А. С. Ахметов, Б.Т. Уахитова

2025Metals9 citationsDOIOpen Access PDF

Abstract

The article presents the results of a study on the production of a complex chromium–manganese–silicon-containing ferroalloy in a large-scale laboratory ore-thermal furnace using man-made waste—chromium-containing aspiration dust obtained during smelting of high-carbon ferrochrome, fines (−5 mm) of iron–manganese ore currently stored in landfills, and finely dispersed coal sludge formed during enrichment. A single-stage technology for the production of a new complex chromium–manganese–silicon-containing ferroalloy by carbothermal reduction is proposed. A metallurgical assessment of the initial charge materials was carried out by the X-ray diffraction (XRD) phase analysis, and metal samples of the obtained ferroalloy were studied by scanning electron microscopy (SEM) in combination with energy dispersive spectroscopy (EDS). The resulting ferroalloy has a complex microstructure with a predominance of carbide and intermetallic phases. A high degree of extraction of chromium (up to 80%), manganese (up to 75%), and silicon (up to 35%) was recorded. The average chemical composition of the obtained ferroalloy, wt.%: Cr—37.41; Mn—17.31; Si—11.84; C—3.81; P—0.14; S—0.02. The slag formed during the smelting of the ferroalloy has satisfactory technological properties: it is characterized by good fluidity, and it actively exits the furnace by gravity. Entanglement of metal kings in the slag is not observed. The results obtained confirm the technological feasibility of the utilization of technogenic raw materials for the production of complex ferroalloys of the FeCrMnSi type.

Topics & Concepts

FerroalloySmeltingMetallurgyFerrosiliconSlag (welding)Materials scienceRaw materialChromiumFerrochromeChromiteBriquetteManganesePyrometallurgyCementRefining (metallurgy)Environmental scienceLimeWaste managementCarbideInduction furnaceSteelmakingElectric arc furnaceMicrostructureBlast furnaceBimetalPhase (matter)VanadiumRailway Systems and Materials ScienceEngineering and Environmental StudiesCoal and Coke Industries Research