The possibility of producing blanks by combining the casting of iron elements and the plastic working of steel elements was tested. Manufacturing composite blanks by casting ensures sufficiently strong diffusion-bonded joint. The thermal conditions for the formation and microstructure of the transition diffusion zone were studied. It is proposed to use cast iron rather than steel to manufacture chaplets. The use of cast-iron chaplets allows maintaining the homogeneous structure of cast iron, which is important in manufacturing critical parts.
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References
K. S. Kolesnikov (ed.), G. F. Balandin, A. M. Dal’skii, et al., Technological Foundations of the Quality of Machines [in Russian], Mashinostroenie, Moscow (1990).
“Census of world casting production,” Modern Casting, No. 12, 26–29 (2021).
K. K. Turilova, “ Comparison of the process yields as an efficiency indicator of Russian and European foundries,” Litein. Proizv., No. 12, 29–36 (2010).
L. A. Efimenko, O. E. Kapustin, D. V. Ponomarenko, I. Yu. Utkin, M. A. Fedorov, and A. I. Romantsov, “Specifics of structure formation and properties of welded joints obtained by laser-hybrid welding of longitudinal pipe joints,” Metallurgist, 64, No. 11-12, 1171–1178 (2020).
L. A. Efimenko, D. V. Ponomarenko, I. Yu. Utkin, and R. O. Ramus’, “ Study of the effect of austenite grain inclination towards growth on impact strength of low-carbon low-alloy steel welded joint heat-affected zone,” Metallurgist, 64, No. 3-4, 342–347 (2020).
I. O. Shinskii, O. A. Pelikan, V. V. Shiryaev, P. N. Karichkovskii, and N. R. Romanenko, “Technological foundations of manufacture of large cast-and-welded bimetallic structures,” Litein. Proizv., No. 9, 24–27 (2000).
A. E. Rozen, O. N. Loginov, A. A. Rozen, S. Yu. Kireev, and N. V. Sevost’yanov, “Structure of the interlayer boundary of layered metal materials with an internal protector obtained via explosion welding,” Metallurgist, 66, No. 5-6, 586–592 (2022).
M. A. Yoffe, R. D. Farisov, and M. R. Khairullin, “Studying the transition zone between cast-iron and steel elements of decorative products,” Litein. Proizv., No. 11, 10–12 (2016).
N. V. Kropotin, E. I. Salamatov, and V. V. Kropotin, “Mathematical model of welding of steel and iron during casting,” Litein. Proizv., No. 5, 17–19 (2009).
M. A. Yoffe, R. D. Farisov, and M. R. Khairullin, “Selecting the process parameters for producing composite castings,” in: Proc. 13th Congr. of Foundrymen of Russia [in Russian], Izd. Tsentr YUUrGU, Chelyabinsk (2017).
K. Szota, “ The temperature activation of carbon saturation steel process,” J. Appl. Math. Comput. Mech., No. 13(4), 137–141 (2014).
R. D. Farisov and M. R. Khairullin, “Cast-iron chaplet for cast-iron parts operated in a wide temperature range,” Liteishch. Rossii, No. 7, 34–35 (2017).
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Translated from Metallurg, Vol. 67, No. 3, pp. 71–77, March, 2023. Russian DOI:https://doi.org/10.52351/00260827_2023_03_71.
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Farisov, R.D., Ioffe, M.A., Kozlovskii, V.N. et al. Manufacture of Composite Cast Blanks Using Steel and Cast-Iron Elements. Metallurgist 67, 344–353 (2023). https://doi.org/10.1007/s11015-023-01521-4
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DOI: https://doi.org/10.1007/s11015-023-01521-4