PROSPECTS FOR THE INTEGRATED USE OF SLAG WASTES FROM FERROCHROME PRODUCTION FOR HEAT-RESISTANT MATERIALS
Ключевые слова:
slag wastes from high-carbon and low-carbon ferrochrome production, refractoriness, specific surface area, calcium and magnesium orthosilicates, heat-resistant materials.Аннотация
The research results of physicochemical and physicotechnical properties of slag wastes from
ferrochrome production as raw materials for heat-resistant materials are presented. Chemical and mineralogical
composition of slag from high-carbon ferrochrome production and slag from low-carbon ferrochrome production, as
well as their constituent main crystalline phases, represented by magnesium and calcium aluminosilicates of complex
composition, have been determined by physicochemical research methods. According to X-ray phase analysis, the
slag from the high-carbon ferrochrome production is represented mainly by forsterite Mg2SiO4, spinel MgAl2O4,
partially amorphous glass phase and admixture of calcium orthosilicate Ca2SiO4. In the slag from the low-carbon
ferrochrome production, the main crystalline phase is calcium orthosilicate γ-Ca2SiO4, as well as magnesium
orthosilicate forsterite Mg2SiО4. The research results of specific surface area, average particle size determination and
sieve analysis have shown that the slag from the low-carbon ferrochrome production is a finely dispersed gray
powder with the following characteristics: the specific surface area – 295 m2
/kg, the average particle size – 6.8 μm,
the true density – 3.01 g/cm3
, the bulk density – 739 kg/m3
. The research of the physicochemical and
physicotechnical properties has established that in terms of chemical, mineralogical composition and refractoriness
indices, the slags from the high-carbon ferrochrome and low-carbon ferrochrome productions can be valuable raw
materials for heat-resistant materials.