OBRABOTKAMETALLOV MATERIAL SCIENCE Vol. 26 No. 1 2024 24. GOST 3443–87. Otlivki iz chuguna s razlichnoi formoi grafi ta. Metody opredeleniya struktury [State Standard. Cast iron castings with graphite of diff erent form. Methods of structure determination]. Moscow, Standards Publ., 2003. 42 p. 25. ISO 16112:2006. Compacted (vermicular) graphite cast irons – Classifi cations. Switzerland, International Organization for Standardization, 2006. 23 p. 26. König M. Literature review of microstructure formation in compacted graphite Iron. International Journal of Cast Metals Research, 2010, vol. 23 (3), pp. 185–192. DOI: 10.1179/136404609X12535244328378. 27. König M., Wessén M. Infl uence of alloying elements on microstructure and mechanical properties of CGI. International Journal of Cast Metals Research, 2010, vol. 23 (2), pp. 97–110. DOI: 10.1179/136404609X12505973 098972. 28. Stefanescu D.M., Alonso G., Suarez R. Recent developments in understanding nucleation and crystallization of spheroidal graphite in iron-carbon-silicon alloys. Metals, 2020, vol. 10, p. 221. DOI: 10.3390/met10020221. 29. Lacaze J., Castro-Roman M.J. Comment on Stefanescu, D.M.; Alonso, G.; Suarez, R. Recent developments in understanding nucleation and crystallization of spheroidal graphite in iron-carbon-silicon alloys. Metals 2020, 10, 221. Metals, 2020, vol. 10 (4), p. 471. DOI: 10.3390/met10040471. 30. Chen Y., Pang J.C., Li S.X., Zou C.L., Zhang Z.F. Damage mechanism and fatigue strength prediction of compacted graphite iron with diff erent microstructures. International Journal of Fatigue, 2022, vol. 164, p. 107126. DOI: 10.1016/j.ijfatigue.2022.107126. 31 Zykova A.P., Lychagin D.V., Chumaevskii A.V., Kurzina I.A., Novomeiskii M.Yu. Vliyanie modifi tsirovaniya ul’tradispersnymi poroshkami oksidov tugoplavkikh metallov i kriolita na strukturu, mekhanicheskie svoistva i razrushenie chuguna SCh25 [Infl uence of modifying of cast iron SCh25 (Russian grade) with ultrafi ne powders of refractory metal oxide and cryolite on structure, mechanical properties and fracture]. Izvestiya vysshikh uchebnykh zavedenii. Chernaya metallurgiya = Izvestiya. Ferrous Metallurgy, 2014, vol. 57 (11), pp. 37–42. DOI: 10.17073/03680797-2014-11-37-42. (In Russian). 32. Kondratyev V.V., Ivanov N.A., Balanovskiy A.E., Ivanchik N.N., Karlina A.I. Uluchshenie svoistv serogo chuguna kremniidioksid i uglerodnymi nanostrukturami [Improvement of the properties of gray cast iron by silicon dioxide and carbon nanostructures]. Zhurnal Sibirskogo federal’nogo universiteta. Seriya: Tekhnika i tekhnologii = Journal of Siberian Federal University. Engineering & Technologies, 2016, vol. 9 (5), pp. 671–685. DOI: 10.17516/1999-494X-2016-9-5-671-685. 33. Kondratyev V.V., Balanovskiy A.E., Ivanov N.A., Ershov V.A., Kornyakov M.V. Otsenka vliyaniya sostava modifi katora s nanostrukturnymi dobavkami na svoistva serogo chuguna [Impact assessment of modifi er composition with nanostructured additives on properties of grey cast iron]. Metallurg = Metallurgist, 2014, no. 5, pp. 48–56. 34. Boldirev D.A., Chaykin V.A., Chaykin A.B. Primenenie smesevykh kompleksnykh modifi katorov s kal’tsiistrontsievym karbonatom pri poluchenii otlivok detalei legkovogo avtomobilya iz vysokoprochnogo i serogo chugunov [Usage of mixed complex inoculators with calcium_strontium carbonate in auto_mobile casting production of nodular and gray cast iron]. Liteishchik Rossii = Foundrymen of Russia, 2010, no. 1, pp. 21–26. 35. Svidró P., Diószegi A. On problems of volume change measurements in lamellar cast iron. International Journal of Cast Metals Research, 2014, vol. 27 (1), pp. 26–37. DOI: 10.1179/1743133613Y.0000000075. 36. Cao M., Baxevanakis K.P., Silberschmidt V.V. Eff ect of graphite morphology on the thermomechanical performance of compacted graphite iron. Metals, 2023, vol. 13, p. 473. DOI: 10.3390/met13030473. 37. Stan S., Chisamera M., Riposan I., Neacsu L., CojocaruAM., Stan I. Integrated system of thermal/dimensional analysis for quality control of metallic melt and ductile iron casting solidifi cation. Journal of Materials Engineering and Performance, 2018, vol. 27, pp. 5187–5196. DOI: 10.1007/s11665-018-3303-0. 38. Xijun D., Peiyue Z., Qifu L. Structure and formation of vermicular graphite. MRS Online Proceedings Library, 1984, vol. 34, pp. 141–150. DOI: 10.1557/PROC-34-141. 39. Stefanescu D.M., Suarez R., Kim S.B. 90 years of thermal analysis as a control tool in the melting of cast iron. China Foundry, 2020, vol. 17, pp. 69–84. DOI: 10.1007/s41230-020-0039-x. 40. Alonso G., Stefanescu D.M., Sanchez J., Zarrabeitia G., Suarez R. Eff ect of the type of inoculant on the shrinkage porosity of high-silicon SG iron. International Journal of Metalcasting, 2022, vol. 16, pp. 106–118. DOI: 10.1007/s40962-021-00605-8. 41. Cherepanov A.N., Drozdov V.O., Manolov V.K., Poluboyarov V.A. Vliyanie nanoporoshkov tugoplavkikh soedinenii na svoistva serogo chuguna [The infl uence of nanopowders of refractory compounds on the properties of gray cast iron]. Tyazheloe mashinostroenie, 2012, no. 8, pp. 8–11. (In Russian).
RkJQdWJsaXNoZXIy MTk0ODM1