Abstract
A digital development method is proposed for the tool management subsystem in production processes that involve permanently joining metal components by friction stir welding. A systems approach permits the development of an operational chain consisting of simulation, design, and manufacture of the tool and auxiliary equipment in group welding of various materials, with different product geometry and joint thickness.
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REFERENCES
Siluyanova, M.V., Kuritsyna, V.V., and Iosifov, P.A., Strategii, metody i modeli upravleniya tekhnologicheskim razvitiem proizvodstv aviatsionno-kosmicheskogo mashinostroeniya (The Strategies, Methods, and Models for Control of Technological Development of Industrial Aerospace Machine Engineering), Moscow: Mosk. Aviats. Inst., 2016.
Lukin, V.I., Erasov, V.S., Panteleev, M.D., et al., Friction stir welding of aircraft wings, Weld. Int., 2018, vol. 32, no. 10, pp. 690–694. https://doi.org/10.1080/09507116.2017.1398914
Kuritsyn, D.N., Denisov, L.V., Siluyanova, M.V., and Kuritsyna, V.V., Tool for friction stir welding in the aerospace industry, Russ. Eng. Res., 2020, vol. 40, no. 3, pp. 245–248.
Baraev, A.V., Vaytsekhovich, S.M., Dolzhanskiy, Yu.M., et al., Improving friction stir welding tool, Weld. Int., 2019, vol. 33, nos. 10–12, pp. 373–375. https://doi.org/10.1080/09507116.2021.1884461
Boitsov, A.G., Kuritsyn, D.N., Siluyanova, M.V., et al., Technological support of Friction stir welding in the aerospace structures, Stanki Instrum., 2018, no. 6, pp. 19–24.
Boitsov, A.G., Kuritsyn, D.N., Siluyanova, M.V., and Kuritsyna, V.V., Friction stir welding in the aerospace industry, Russ. Eng. Res., 2018, vol. 38, no. 12, pp. 1029–1033.
Khoroshko, L.L. and Kuznetsov, P.M., Information environment for the design of industrial processes, Russ. Eng. Res., 2021, vol. 41, pp. 277–280. https://doi.org/10.3103/S1068798X21030084
Lyushinskii, A.V., Baranov, A.A., Boitsov, A.G., et al., RF Patent 2621514, MPK B 23 K 20/12, 2017.
Kuritsyn, D.N., Denisov, L.V., Siluyanova, M.V., and Kuritsyna, V.V., Design and technological development of the tool for friction stir welding in the aerospace industry, Stanki Instrum., 2019, no. 10, pp. 18–22.
Boitsov, A.G., Lyushinskii, A.V., and Baranov, A.A., Friction stir welding for nonrotational parts made of high-strength aluminium alloys, Aviakosm. Priborostr., 2015, no. 7, pp. 3–11.
Boitsov, A.G., Pleshakov, A.S., Siluyanova, M.V., et al., Friction stir welding of M1 copper alloy in the production of power equipment, Russ. Eng. Res., 2020, vol. 40, pp. 249–252.
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Financial support was provided by the Russian President (grant MK-944.2020.8) as part of the program for the development of young scientists.
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Translated by B. Gilbert
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Kuritsyn, D.N., Kuritsyna, V.V. & Siluyanova, M.V. Digital Design of Tool-Management Systems for Friction Stir Welding. Russ. Engin. Res. 42, 274–277 (2022). https://doi.org/10.3103/S1068798X22030121
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DOI: https://doi.org/10.3103/S1068798X22030121