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Theoretical and experimental substantiation of the extraction process with thinning bimetallic tubular elements of dissimilar metals and alloys

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Identyfikatory
Warianty tytułu
PL
Teoretyczne i eksperymentalne uzasadnienie procesu ciągnienia z przerzedzaniem bimetalicznych elementów rurowych z różnych metali i stopów
Języki publikacji
EN
Abstrakty
EN
The article proposes a scheme of the process of manufacturing bimetallic tubular elements by extraction a cylindrical cup of two dissimilar metals without thinning and extraction with thinning cup. At the same time, in the process of extraction in the heated state, the layers of dissimilar metals and alloys are connected and the desired shape of the product is obtained. A mathematical model of deformation of the process of joint extraction with thinning of two dissimilar metals with heating in a flat deformed state is developed. The influence of the deformation value on the dispersion of mechanical energy by bimetal was revealed.
PL
W artykule zaproponowano schemat procesu wytwarzania bimetalicznych elementów rurowych poprzez ciągnienie cylindrycznego kielicha z dwóch różnych metali bez przerzedzania i ciągnienie z przerzedzaniem kielicha. W procesie ciągnienia w stanie nagrzanym warstwy różnych metali i stopów są łączone i uzyskuje się pożądany kształt produktu. Opracowano matematyczny model odkształcenia procesu wspólnego ciągnienia z przerzedzaniem dwóch różnych metali z ogrzewaniem w płaskim stanie odkształconym. Ujawniono wpływ wartości odkształcenia na rozpraszanie energii mechanicznej przez bimetal.
Rocznik
Strony
44--49
Opis fizyczny
Bibliogr. 22 poz., tab., wykr.
Twórcy
  • National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute", Kyiv, Ukraine
  • Vinnytsia Mykhailo Kotsiubynskyi State Pedagogical University, Vinnytsia, Ukraine,
autor
  • National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute", Kyiv, Ukraine
  • National Technical University of Ukraine "Igor Sikorsky Kyiv Polytechnic Institute", Kyiv, Ukraine
  • Information and Computational Technologies CS MHES RK, Almaty, Kazakhstan
  • Kazakh National Women's Teacher Training University, Almaty, Kazakhstan
Bibliografia
  • [1] Aliieva L., Zhbankov Y. Radial-direct extrusion with a movable mandrel. Metallurgical and Mining Industry 11, 2015, 175–183.
  • [2] Alekseev Yu. N.: Questions of plastic flow of metals. Publishing house of the KhSU, Kharkov 1958.
  • [3] Borys R., Titov V.: Ensuring the quality of the connection of layers from different metals in the manufacture of bietallic tubular elements by drawing. Mechanics and Advanced Technologies 1(85), 2019, 63–70 [http://doi.org/10.20535/2521-1943.2019.85.162508].
  • [4] Hedayatia O., Koreia N., Adelia M., Etminanbakhshb M.: Microstructural evolution and interfacial diffusion during heat treatment of Hastelloy/stainless steel bimetals. Journal of Alloys and Compounds 712, 2017, 172–178.
  • [5] Inoue J., Nambu S., Ishimoto Y., Koseki T.: Fracture elongation of brittle/ductile multilayered steel composites with a strong interface. Scripta Materialia 59, 2008, 1055–1058.
  • [6] Kalyuzhnyi V. L., Aliieva L. I., Kartamyshev D. A., Savchinskii I. G.: Simulation of Cold Extrusion of Hollow Parts. Metallurgist 61, 2017, 359–365.
  • [7] Lebedev A. O.: Methods and results of the processes of accumulation of damage in metallic materials under different load conditions. Bulletin of NTUU "KPI". Mechanical engineering 44, 2003, 42–57.
  • [8] Limberg, E. A. Selivanov G. D.: Determination of the specific pressure of filling the fillet radii in the tool for forging of. Metal forming in engineering 17, 1981, 22–27.
  • [9] Polishchuk L., Mamyrbayev O., Gromaszek K.: Mechatronic Systems II. Applications in Material Handling Processes and Robotics. Taylor & Francis Group, CRC Press, Balkema book, Boca Raton, London, New York, Leiden 2021.
  • [10] Tallafuss P., Johnston J.: Defects, causes and prevention controls in the continuous bronze/steel bimetal strip sintering process. Engineering Failure Analysis 92, 2018, 34–43.
  • [11] Shulga M., Krivov G., Fedorenko Yu., Titov V., Akimov V.: Modeling and calculation of structural elements made of heterogeneous materials. Technology, 1996.
  • [12] Springer H., Kostka A., Payton E. J., Raabe D., Kaysser-Pyzalla A., Eggeler G.: Onthe formation and growth of intermetallic phases during interdiffusion between lowcarbon steel and aluminum alloys. Acta Mater. 59, 2011.
  • [13] Springer H., Szczepaniak A., Raabe D.: On the role of zinc on the formation and growth of intermetallic phases during interdiffusion between steel and aluminium alloys. Acta Mater. 96, 2015.
  • [14] Titov V. A.: The influence of diamond smoothing the surface of the steels on the mechanical energy dissipation. Ttov V. A., Mozgovy O. V.: Bulletin of National Technical University of Ukraine "Kyiv Polytechnic Institute". Engineering 54, 2008.
  • [15] Viala J. C., Peronnet M., Barbeau F., Bosselet F., Bouix J.: Interface chemistry in aluminium alloy castings reinforced with iron base inserts. Composites Part A: Applied Science and Manufacturing 33(10), 2002, 1417–1420 [http://doi.org/10.1016/S1359-835X(02)00158-6].
  • [16] Wójcik W., Pavlov S., Kalimoldayev M.: Mechatronic Systems I. Applications in Transport, Logistics, Diagnostics and Control. Taylor & Francis Group, CRC Press, Balkema book, London, New York 2021.
  • [17] Wang T. M., Liang C. H., Chen Z. N., Zheng Y. P., Kang H. J., Wang W.: Development of an 8090/3003 bimetal slab using a modified. J. Mater. Process. Technol. 214, 2014, 347–352.
  • [18] Wenming Jiang, Guangyu Li, Yao Wu, Xinwang Liu: Zitian Fan Effect of heat treatment on bonding strength of aluminum/steel bimetal produced by a compound casting. Journal of Materials Processing Technology 258, 2018 [http://doi.org/10.1016/j.jmatprotec.2018.04.006].
  • [19] Xu W. C., Zhang Z. P., Huang K., Shan D. B.: Effect of heat treatment and initial thickness ratio on spin bonding of 3A21/5A03 composite tube. J. Mater. Process. Technol. 247, 2017, 143–157.
  • [20] Zhbankov I., Perig А., Aliieva L.: Calculation of recovery plasticity in multistage hot forging under isothermal conditions. Springer Plus 69, 2016, 174–180.
  • [21] Zhbankov I. G., Perig A. V., Aliieva L. I.: New schemes of forging plates, shafts and discs. Int. J. of Advanced Manufacturing Technology 82, 2015, 287–301 [http://doi.org/10.1007/s00170-015-7377-7].
  • [22] Zhou Li et al.: Analysis of bending characteristics of bimetal steel composite. International Journal of Mechanical Sciences 148, 2018 [http://doi.org/10.1016/j.ijmecsci.2018.08.032].
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a7caa208-affb-4233-8d26-cf48b8d75768
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