Abstract
The current and residual strain-stress state of sheet elements during one- and two-layer building-up (surfacing) with three steels under different support conditions was investigated. The mathematical model of the process based on the theory of growing bodies, the Bodner–Partom unified model of viscoplastic flow, and CCT diagrams for calculating microstructural transformations during cooling are developed. Finite element simulation of the surfacing process is utilized. A significant influence of microstructural transformations and support conditions on the residual strain-stress state of deposited sheet elements is revealed. A satisfactory correlation between calculated and experimental data is established. The obtained results can be used in determining the rational parameters of technological processes of sheet elements surfacing.
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Senchenkov, I., Ryabtsev, I., Chervinko, O., Yakovenko, N. (2023). Stress–Strain State of Sheet Elements at One- and Two-Layer Build-Up with Liquid Metal. In: Guz, A.N., Altenbach, H., Bogdanov, V., Nazarenko, V.M. (eds) Advances in Mechanics. Advanced Structured Materials, vol 191. Springer, Cham. https://doi.org/10.1007/978-3-031-37313-8_26
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