Abstract
By the methods of conventional plastic strains and direct integration of resolving equations for stresses we obtain expressions for residual stresses in an infinite plate with rectilinear weld. The results of numerical analysis show that the three-dimensional stressed state is realized in the vicinity of the weld even for relatively thin plates.
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REFERENCES
L. M. Lobanov (editor), Welded Building Structures, Vol. 1: L. M. Lobanov, V. I. Makhnenko, V. I. Trufyakov et al., Basic Principles of the Design of Structures [in Russian], Naukova Dumka, Kiev (1993).
Ya. S. Podstrigach, V. A. Osadchuk, and L. P. Karasev, “Approximate analysis of residual welding stresses in cylindrical shells,” Probl. Prochn., No. 7, 8–13 (1975).
Ya. S. Podstrigach, V. A. Osadchuk, and A. M. Margolin, Residual Stresses, Long-Term Strength, and Reliability of Glass Structures [in Russian], Naukova Dumka, Kiev (1991).
V. M. Vihak, “Direct method of integration of equations of two-dimensional problems of elasticity and thermoelasticity,” Dop. Akad. Nauk Ukrainy, No. 12, 62–67 (1998).
I. N. Sneddon, Fourier Transforms, McGraw-Hill, New York (1951).
V. M. Vihak, Control over Thermal Stresses and Displacements [in Russian], Naukova Dumka, Kiev (1988).
B. S. Kasatkin, V. M. Prokhorenko, and I. M. Chertov, Stresses and Strains in the Process of Welding [in Russian], Vyshcha Shkola, Kiev (1987).
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Shablii, O.M., Tsymbalyuk, L.I. Distribution of Welding Stresses in a Plate with Rectilinear Weld. Materials Science 36, 581–585 (2000). https://doi.org/10.1023/A:1011326524777
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DOI: https://doi.org/10.1023/A:1011326524777