Application of a device for the production of electrovalves by High Speed Friction Welding HSFW and FSW welding

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Damian Miara
Jolanta Matusiak
Adam Pietras
Mateusz Świetlik
Saverio Zitti

Abstrakt

In order to meet the current requirements of the automotive industry, associated with the creation of a machining center for the production of cylindrical welded and turned components for the construction of solenoid valves, innovative technologies are needed for joining different materials of construction. The article presents the results of the research on the applicability, production of steel electrovalves elements in the AISI303 and 11SMnPb30 grades, an innovative solution consisting in the combination of HSFW high speed friction welding and friction welding using the FSW method. As part of the research, inter alia, a welding station, selection of the shape and dimensions of tools, selection of welding parameters for the HSFW / FSW method, and tests of mechanical properties of the resulting joints were carried out. The obtained results indicate that the obtained connections are characterized by high and reproducible quality.

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D. Miara, J. Matusiak, A. Pietras, M. Świetlik, i S. Zitti, „Application of a device for the production of electrovalves by High Speed Friction Welding HSFW and FSW welding ”, Weld. Tech. Rev., t. 91, nr 11, s. 33–40, grudz. 2019.
Dział
Original Articles

Bibliografia

Miara D., Matusiak J., Pietras A., Opracowanie i wykonanie w Instytucie Spawalnictwa stanowiska doświad-czalnego w celu przeprowadzenia badań i opracowania technologii zgrzewania elementów elektrozaworów oraz wykonanie prób zgrzewania dla metody FSW oraz HSFW/FSW, Sprawozdanie z pracy badawczej Instytutu Spawalnictwa nr B-303/18 (Bb-127), 2018, Gliwice.

Praca zbiorowa, Poradnik Inżyniera - Spawalnictwo, Wydawnictwo Naukowo Techniczne, T. 2, 2007, Warszawa.

Zadroga L., Pietras A., Papkala H., Studium i badania warunków łączenia materiałów różnoimiennych nowoczesnymi metodami zgrzewania tarciowego, Sprawozdanie z pracy badawczej Instytutu Spawalnictwa, 2004, Gliwice.

Miara D., Matusiak J., High speed FSW welding of wrought aluminium alloy, Welding Technology Review, 2017, Vol. 89(10), 27-31.

Rajiv S., Mishra A., Murray W., Mahoney E., Friction stir welding and processing, ASM International, 2007.

Kallee S.W., Nicholas E. D., Friction Stir Welding - the invention, innovation, implementation and industrialisation, 8th Incalco International Conference of joint in aluminum, Munich, Germany, 2001.

Rai R., De A., Bhadeshia H.K.D.H., DebRoy T., Review: friction stir welding tools, Journal Science and Technology of Welding and Joining, 2011, Vol. 16(4), 325-342.

Aroraa A., Deb A., DebRoya T., Toward optimum friction stir welding tool shoulder diameter, Scripta Materialia, 2011, Vol. 64(1), 9-12.

Li H., Gao J., Li Q., Galloway A., Toumpis A., Effect of friction stir welding tool design on welding thermal ef-ficiency, Journal Science and Technology of Welding and Joining, 2018, Vol. 24(2).

Shashi S., Kumara S., Murugan N., Ramachandranc KK., Microstructure and mechanical properties of friction stir welded AISI 316L austenitic stainless steel joints, Journal of Materials Processing Technology, 2018, Vol. 254, 79-90.

Liu F.C., Hovanski Y., Miles M.P., Sorensen C.D., Nelson T.W., A review of friction stir welding of steels: Tool, material flow, microstructure, and properties, Journal of Materials Science & Technology, 2018, Vol. 34(1), 39-57.

Tingeya C., Gallowaya A., Toumpisa A., Caterb S., Effect of tool centreline deviation on the mechanical proper-ties of friction stir welded DH36 steel, Materials & Design, 2015, Vol.65, 896-906.

Kailas V., Kumar K., The role of friction stir welding tool on material flow and weld formation, Materials Science and Engineering, 2008, Vol. 485(1-2), 367-374.

Sarkara R., Pala T.K., Shomeb M., Material flow and intermixing during friction stir spot welding of steel, Journal of Materials Processing Technology, 2016, Vol. 227, 96-109.

Micallef D., Camilleri D,, Toumpis A., Galloway A., Arbaoui L., Local heat generation and material flow in friction stir welding of mild steel assemblies, Journal of Materials: Design and Applications, 2016, Vol. 230(2).

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