Search citation statements
Paper Sections
Citation Types
Year Published
Publication Types
Relationship
Authors
Journals
The interaction of refractories of various grades with liquid slags whose samples were taken in different stages of melting from an electric furnace are investigated by wetting for temperatures ranging from 20 to 1550°C. The compositions of the slags differed in the CaO/SiO2 proportion and the content of chromium oxide. It has been established that the olivinite refractory has advantages under the conditions of eleclzic melting, which seems to be explainable by its chemical composition and specific pore structure. The results of the investigation were used to develop compositions of gunite powders for torch guniting of linings of the slag belt of an arc steel melting furnace.One of the main factors decreasing the output of arc steel melting furnaces (ASMF) is the short lifetime of their linings due to the severe operating conditions of the refractories. Specifically, the lining of the slag belts of such furnaces wears out by 70 mm in each heat. The re&actoties are subjected to a strong effect of overheated slag with a low viscosity and a high convection rate that reaches a few meters per second. The lower part of the lining also experiences the corrosion effect of slags with different chemical compositions and basicity.The damage to lining refractories of ASMF has been investigated quite well [I -I0]. The present work is devoted to a detailed investigation of the interaction between slags in ASMF of the "Severstar' Joint Stock Company and refi'actories of various chemical compositions.It is known that the dominant role in wear of the lining of the slag belt of such a furnace is played by the physicochemical processes occurring in the process of penetration of iron I St. Petersburg Institute of Refractories, St. Petersburg, Russia.silicate and slag melts into the pores and cracks in ref~acto-ties. The formation of a contact zone is caused by wetting of the surface of the refractories by corroding agents.The compatibility of materials is qualitatively characterized by the chemical nature of the refractory and the specific features of its binder, in particular, their basicity with respect to the silicate module of the slag.Since the thermomechanical, thermophysical, and physicochemical processes occurring under the operating conditions of the refractory in ASMF are very complicated, the interaction between the refractory and the slags is estimated by wetting the surface of the refractory with liquid slags. For this purpose we took slag samples in different stages of the melting process in furnace No. 3 of Severstal and determined their chemical composition and the duration of the action on the lining (Table I). In the experiments we used slags Nos. 2, 5, and 6 with compositions differing in the CaO/SiO2 proportion and the content of chromium oxide.
The interaction of refractories of various grades with liquid slags whose samples were taken in different stages of melting from an electric furnace are investigated by wetting for temperatures ranging from 20 to 1550°C. The compositions of the slags differed in the CaO/SiO2 proportion and the content of chromium oxide. It has been established that the olivinite refractory has advantages under the conditions of eleclzic melting, which seems to be explainable by its chemical composition and specific pore structure. The results of the investigation were used to develop compositions of gunite powders for torch guniting of linings of the slag belt of an arc steel melting furnace.One of the main factors decreasing the output of arc steel melting furnaces (ASMF) is the short lifetime of their linings due to the severe operating conditions of the refractories. Specifically, the lining of the slag belts of such furnaces wears out by 70 mm in each heat. The re&actoties are subjected to a strong effect of overheated slag with a low viscosity and a high convection rate that reaches a few meters per second. The lower part of the lining also experiences the corrosion effect of slags with different chemical compositions and basicity.The damage to lining refractories of ASMF has been investigated quite well [I -I0]. The present work is devoted to a detailed investigation of the interaction between slags in ASMF of the "Severstar' Joint Stock Company and refi'actories of various chemical compositions.It is known that the dominant role in wear of the lining of the slag belt of such a furnace is played by the physicochemical processes occurring in the process of penetration of iron I St. Petersburg Institute of Refractories, St. Petersburg, Russia.silicate and slag melts into the pores and cracks in ref~acto-ties. The formation of a contact zone is caused by wetting of the surface of the refractories by corroding agents.The compatibility of materials is qualitatively characterized by the chemical nature of the refractory and the specific features of its binder, in particular, their basicity with respect to the silicate module of the slag.Since the thermomechanical, thermophysical, and physicochemical processes occurring under the operating conditions of the refractory in ASMF are very complicated, the interaction between the refractory and the slags is estimated by wetting the surface of the refractory with liquid slags. For this purpose we took slag samples in different stages of the melting process in furnace No. 3 of Severstal and determined their chemical composition and the duration of the action on the lining (Table I). In the experiments we used slags Nos. 2, 5, and 6 with compositions differing in the CaO/SiO2 proportion and the content of chromium oxide.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.