OBRABOTKAMETALLOV Vol. 25 No. 4 2023 73 TECHNOLOGY 3. Khamatova A.R., Khohryakov O.V. Elektrostaleplavil’nyi shlak OAO «Izhstal’» dlya tsementov nizkoi vodopotrebnosti i betonov na ikh osnove [The electro-steel-smelting slag JSC “Izhstal” for cements of low water demand and concrete on their basis]. Izvestiya Kazanskogo gosudarstvennogo arkhitekturno-stroitel’nogo universiteta = News KSUAE, 2016, no. 2 (36), pp. 221–227. 4. Tsakiridis P.E., Papadimitriou G.D., Tsivilis S., Koroneos C. Utilization of steel slag for Portland cement clinker production. Journal of Hazardous Materials, 2008, vol. 152 (2), pp. 805–811. DOI: 10.1016/j.jhazmat.2007.07.093. 5. Wu Chzhan. Mixed slag smelting reduction production and thermal refi ning method. Patent of China, no. 201610570916, 2018. 6. Albuquerque Contrucci М., Marcheze E.S. Method for the use of electric steel plant slag for self-reducing agglomerates. Patent US, no. 6391086, 2002. 7. Krofchak D. Method of making cement or mine backfi ll from base metal smelter slag. Patent US, no. 6033467, 2000. 8. Edlinger A. Method of manufacturing pig iron or steel and cement clinker from slags. Patent US, no. 5944870, 2016. 9. Song Q., Shen B., Zhou Z. Eff ect of blast furnace slag and steel slag on cement strength, pore structure and autoclave expansion. Advanced Materials Research, 2011, vol. 168–170, pp. 17–20. DOI: 10.4028/www.scientifi c. net/AMR.168-170.17. 10. Skaf M., Manso M.J., Aragon A., Fuente-Alonso J.A., Ortega-López V. EAF slag in asphalt mixes: A brief review of its possible re-use. Resources, Conservation and Recycling, 2017, vol. 120, pp. 176–185. DOI: 10.1016/j. resconrec.2016.12.009. 11. Yung V.N., Butt Yu.M., Zhuravlev V.F., Okorokov S.D. Tekhnologiya vyazhushchikh veshchestv [Technology of binders]. Moscow, Gosstroiizdat Publ., 1952. 600 p. 12. Laskorin B.N., Gromov B.V., Tsygankov A.P., Senin V.N. Problemy razvitiya bezotkhodnykh proizvodstv [Problems of development of waste-free production]. Moscow, Stroiizdat Publ., 1981. 207 p. 13. Bakhmatov P.V., Startsev E.A., Grigor’ev V.V., Bryanskii A.A. Scrap defi cit problem at the Amurstal metallurgical plant and search for alternatives to substitute it. Metallurgist, 2022, vol. 66 (3), pp. 376–382. DOI: 10.1007/s11015-022-01339-6. 14. Belskii S.S., Zaitseva A.A., Tyutrin A.A., Ismoilov Z.Z., Baranov A.N., Sokolnikova Yu.V. Current state of steelmaking slag processing. iPolytech Journal, 2021, vol. 25 (6), pp. 782–794. DOI: 10.21285/1814-3520-2021-6782-794. 15. ITS 26–2017. Informatsionno-tekhnicheskii spravochnik po nailuchshim dostupnym tekhnologiyam. Proizvodstvo chuguna, stali i ferrosplavov [ITS 26-2017. Information and technical guide to the best available technologies. Production of pig iron, steel and ferroalloys]. Moscow, Byuro NTD Publ., 2017. 478 p. 16. Kozyrev N.A., Kryukov R.E., Kryukov N.E., Koval’skii I.N., Usol’tsevA.A. Razrabotka novykh svarochnykh fl yusov i fl yus-dobavok dlya svarki i naplavki stali na osnove tekhnogennykh otkhodov metallurgicheskogo proizvodstva [Development of new welding fl uxes and fl ux-additives for welding and surfacing steel on basis of technogenic wastes of metallurgical production]. Zagotovitel’nye proizvodstva v mashinostroenii = Blanking productions in mechanical engineering, 2017, vol. 15 (6), pp. 249–254. 17. Kozyrev N.A., Kryukov R.E., Mikhno A.R., Usoltsev A.A., Umanskiy A.A. Razrabotka novykh svarochnykh fl yusov na osnove shlaka silikomargantsa i kovshevogo elektrostaleplavil’nogo shlaka [Development of new welding fl uxes based on silicomanganese slag and ladle electric steel-smelting slag]. Svarochnoe proizvodstvo, 2020, no. 2, pp. 16–21. (In Russian). 18. Kryukov R.E., Gromov V.E., Kozyrev N.A., Ivanov Yu.F., Shlyarova Yu.A. Strukturno-fazovye sostoyaniya i poverkhnost’ razrusheniya elektrodugovoi naplavki i svarnykh shvov [Structural-phase states and fracture surface of electric arc surfacing and welds]. Novokuznetsk, SibGIU Publ., 2022. 136 p. ISBN 978-5-7806-0585-0. 19. Bakhmatov P.V., Startsev E.A., Sobolev B.M. Impact and eff ect study of submerged-arc welding conditions on structural changes inweldmetal. Lecture Notes in Networks and Systems, 2021, vol. 200, pp. 65–76. DOI: 10.1007/9783-030-69421-0_8. 20. Bakhmatov P.V., Startsev E.A., Gladovskij R.E., Sobolev B.M. Sposob izgotovleniya svarochnogo fl yusa iz tekhnogennykh otkhodov staleplavil’nogo proizvodstva [Method for manufacturing welding fl ux from man-made waste of steelmaking]. Patent RF, no. 2022128798, 2023. Confl icts of Interest The authors declare no confl ict of interest. © 2023 The Authors. Published by Novosibirsk State Technical University. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0).
RkJQdWJsaXNoZXIy MTk0ODM1