The stress–strain state of a cylindrical joint with a soft interlayer under axial loading during diffusion welding is considered. The distribution and values of all components of stresses and plastic strains are studied by way of computer simulation. The stiffness coefficients of the stress state and the degree of hardening of the soft interlayer are determined. The factors are that should be taken into account when choosing the material of the interlayer and the diffusion welding conditions are found.
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References
O. A. Baksha and D. M. Kachanov, “Stress state of a plastic interlayer under axisymmetric deformation,” Izv. AN SSSR, Mekh., No. 2, 134–137 (1965).
O. A. Bakshi and R. Z. Shron, “Estimation of the strength of welded joints with a soft interlayer,” Svarochn. Soed., No. 3, 3–5 (1971).
O. A. Bakshi and R. Z. Shron, “Static tensile strength of welded joints with a soft interlayer,” Svarochn. Proizv., No. 5, 6–10 (1962).
G. V. Ermolaev and I. A. Kolesar, “Stress–strain state of joints of dissimilar materials with a soft interlayer inder mechanical and thermal loading,” Avtom. Svarka, 734, No. 8, 23–27 (2014).
V. V. Kvasnitskii, G. V. Ermolaev, and M. V. Matvienko, “The regularities of the formation of the stress–strain state during diffusion welding of dissimilar materials in cylinder–cylinder and bushing–bushing joints,” Zb. Nauk. Prats’ Nats. Univ. Korablebud., 416, No. 5, 57–65 (2007).
V. V. Kvasnyts’kyi, G. V. Ermolaev, and I. A. Kolesar, “The stress–strain state of welded and brazed joints of dissimilar materials of equal stiffness with interlayers,” Zb. Nauk. Prats’ Nats. Univ. Korablebud., 440, No. 5, 36–43 (2011).
L. A. Kopel’man, Fundamentals of the Theory of Strength of Welded Structures [in Russian], Izd. Lan’, St. Petersburg (2010).
E. Akca and A. Gursel, “The importance of interlayers in diffusion welding – A review,” Periodicals of Eng. Natur. Sci., 3, No. 2, 12–16 (2015).
B. V. Borts, I. M. Korotkova, O. T. Lopata, V. I. Sytin, V. I. Tkachenko, and I. O. Vorobiov, “Method of solid-phase welding of austenitic and oxide-dispersion-strengthened steels,” Mater. Sci., 53, No. 2, 165–170 (2017).
V. Shmorgun, A. Bogdanov, M. Trunov, and A. Taube, “Investigation on thermal stress–strain state in multilayered composites during nickel aluminide coatings formation,” WSEAS Trans. on Appl. Theor. Mech., 10, 180–186 (2015).
Y. Zhou, K. Ikeuchi, T. H. North, and Z. Wang, “Effect of plastic deformation on residual stresses in ceramic/metal interfaces,” Metallurg. Trans. A, 22A, 2822–2825 (1991).
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Translated from Prykladna Mekhanika, Vol. 59, No. 1, pp. 112–119, January–February 2023.
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Matvienko, M.V., Martynenko, V.O. & Vakhonina, L.V. Stress–Strain State of Joints with a Soft Interlayer Under Mechanical Loading. Int Appl Mech 59, 100–106 (2023). https://doi.org/10.1007/s10778-023-01203-3
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DOI: https://doi.org/10.1007/s10778-023-01203-3