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MATERIALS SCIENCE
ArticleName Investigation of structure and properties of the welded joint obtained by friction stir welding of 1580 alloy hot-rolled sheets
DOI 10.17580/nfm.2024.02.11
ArticleAuthor Konstantinov I. L., Yuryev P. O., Saparova A. S., Voroshilov D. S.
ArticleAuthorData

Siberian Federal University, Krasnoyarsk, Russia

I. L. Konstantinov, Candidate of Technical Sciences, Associate Professor of Metal Forming Department, e-mail: ilcon@mail.ru
P. O. Yuryev, Head of the Laboratory of Low-Carbon Metallurgy and Energy, e-mail: pashka_urew@mail.ru
A. S. Saparova, Senior Lecturer, Department of Metal Science and Heat Treatment of Metals named after V. S. Biront, e-mail: 9082109068@mail.ru
D. S. Voroshilov, Candidate of Technical Sciences, Head of Metal Forming Department, e-mail: d.s.voroshilov@gmail.com

Abstract

The weldability of hot-rolled sheets of alloy 1580 by friction stir welding was investigated. The test blanks were cut
from 6.0 mm thick sheets, which were produced under industrial conditions by hot rolling of large-size ingots with dimensions of 300×1445×2200 mm at the “SGP Kvarto 2800” mill. Cards of 210×297 mm size were cut from the sheets and then roasted under two regimes: at 300 °C for three hours and at 350 °C for three hours. The work solved the problems of determining the mechanical properties of welded samples by tensile tests, investigating the structure of the weld by metallographic and electron microscopic methods, assessing the quality of the weld by radiographic analysis and technological tests for static bending. It has been established that the use of the friction stir welding method for joining 1580 alloy sheets allows to obtain high quality of the welded seam. Mechanical tests have shown that the strength of welded joints obtained by the FSW method is almost at the level of the base metal strength and does not depend on the localization of the fracture point. The samples after welding withstood bending tests without cracks along the entire length of the weld, both by bending at an angle of 150° with a mandrel, and after continued testing by static bending in a vise to parallelism of the sides.

The work was carried out by the laboratory of low-carbon metallurgy and power engineering within the framework of the state assignment of “Siberian Federal University” of the organization-participant of REC “Yenisei Siberia” within the framework of the national project “Science and Universities”, project number FSRZ-2024-0004.

keywords Friction stir welding, aluminum alloys, scandium, welded seam, mechanical properties, static bending, X-ray analysis, macrostructure
References

1. Drits A. M., Ovchinnikov V. V. Welding of Aluminum Alloys. Moscow: Izdatelskiy Dom “Ruda i Metally”. 2017. 440 p.
2. Baranov A. A., Lyushinskiy A. V. The Use of FWR Technology in the Manufacture of Structures Made of Aluminum Alloys. New Materials and Technologies for Rocket, Space and Aviation Equipment, Zvezdnyi Gorodok, June 27–9, 2018. pp. 16–18.
3. Boytsov A. G., Kachko V. V., Kuritsyn D. N. Highspeed Friction Stir Welding By Aviation Materials And Assemblage. Metalworking. 2013. Iss. 5-6. pp. 35–42.
4. Karmanov V. V., Kameneva A. L., Karmanov V. V. The Friction Stir Welding of Aluminium Alloys: Essence and Specific of the Process, Features of the Weld Joint Structure. PNRPU Aerospace Engineering Bulletin. 2012. No. 32. pp. 67–80.
5. Zakharov V. V. Structure Strengthening of Aluminium Alloys. Technology of Light Alloys. 2011. Iss. 2. pp. 18–24.
6. Zhao Y., Zhang W., Koe B., Du W., Wang M., Wang W., Boller E., Rack A., Sun Z., Shu D., Sun B., Mi J. Multiscale Characterization of the Nucleation and 3D Structure of Al3Sc Phases Using Electron Microscopy and Synchrotron X-ray Tomography. Materials Characterization. 2020. Vol. 164. 110353.
7. Zhang C., Jiang Y., Cao F., Hu T., Wang Y., Yin D. Formation of Сoherent, Сore-Shelled Nano-Particles in Dlute Al – Sc – Zr Alloys from the First-Principles. Journal of Materials Science & Technology. 2019. Vol. 35, Iss. 5. pр. 930–938.
8. Konstantinov I. L., Yuryev P. O., Baranov V. N., Bezrukikh A. I., Sidelnikov S. B., Orelkina T. A., Voroshilova M. V., Murashkin M. Y., Baykovskiy Yu. V., Partyko E. G., Stepanenko N. A., Mansurov Yu. N. Study the Influence of Scandium Content and Annealing Regimes on the Properties of Alloys 1580 and 1581. International Journal of Lightweight Materials and Manufacture. 2023. Vol. 6, Iss. 1. pр. 15–24.

9. Yuryev Р. O., Baranov V. N., Orelkinа T. A., Bezrukikh A. I., Voroshilov D. S., Murashkin M. Yu., Partyko E. G., Konstantinov I. L., Yanov V. V., Stepanenko N. A. Investigation the Structure in Cast and Deformed States of Aluminum Alloy, Economically Alloyed with Scandium and Zirconium. The International Journal of Advanced Manufacturing Technology. 2021. Vol. 115. pp. 263–274.
10. Yuryev P. O., Gerov M. V., Konstantinov I. L., Baranov V. N., Bezrukikh A. I., Sidelnikov S. B., Mansurov Yu. N., Baykovskiy Yu. V. Investigation of Properties of Industrial Sheet Semi-Finished Products from 1580 Alloy. Metallurgist. 2022. Iss. 12. pp. 74–80.
11. Dovzhenko N. N., Demchenko A. I., Bezrukikh A. A., Dementeva I. S., Gaevskiy V. N., Dovzhenko I. N., Voroshilov D. S., Baranov V. N., Orelkina T. A., Lopatina E. S. Mechanical Properties and Microstructure of Multi-pass Butt Weld of Plates Made of Ag – Mg – Zr Alloy Sparingly Doped with Scandium. The International Journal of Ad vanced Manufacturing Technology. 2021, Vol. 113. pp. 785– 805.
12. Afanasyev N. Yu., Kulik V. I. Friction Welding with Mixing of Aluminum Alloys at Rocket & Space Manufacturing Technology. RHYTM of Machinery. 2019. Iss. 7. pp. 36–39.
13. Ovchinnikov V. V., Drits A. M., Skakova T. Yu. Friction Stir Welding of Aluminum Al – Zn – Mg and Al – Zn – Mg – Cu Alloys. Blanking Productions in Mechanical Engineering (Press Forging, Foundry and Other Productions). 2022. Vol. 20, Iss. 7. pp. 299–306.
14. Drits A. M., Ovchinnikov V. V., Reztsov R. B. Defects Arising in Friction Stir Welding of Al – Mg Alloys and Methods for Their Elimination. Technology of Light Alloys. 2022. Iss. 4. pp. 16–27.
15. Ovchinnikov V. V., Drits A. M., Solov’eva I. V. Effect of Friction Stir Welding Parameters on Properties and Structure of 1151T Alloy Sheets Joints. Blanking Productions in Mechanical Engineering (Press Forging, Foundry and Other Productions). 2021. Vol. 19, Iss. 1. pp. 11–18.
16. Baranov V. N., Yuriev P. O., Konstantinov I. L., Bezrukikh A. I., Partyko E. G., Ivanova A. O. Investigation of Industrial 1580 Alloy Sheet Weldability by Friction Stir Welding. Metallurgist. 2022. Vol. 66. pp. 815–821.
17. Drits A. M., Ovchinnikov V. V., Polyakov D. A. Elevated-Temperature Properties Of 1565ch Alloy Base Metal And Welded Joints Made By Friction Stir Welding. Technology of Light Alloys. 2021. Iss. 4. pp. 38–49.
18. Ovchinnikov V. V., Drits A. M. Friction Welding with Stirring of Aluminum Alloys with Additional Cooling of Joint. Elektrometallurgiya. 2021. Iss. 10. pp. 2–14.
19. Ovchinnikov V.V., Drits A. M. Friction Stir Welding of Aluminum Alloys with Additional Cooling of a Welded Joint. Russian Metallurgy (Metally). 2021. Vol. 2021. pp. 1488–1497.
20. Ovchinnikov V. V., Drits A. M. Properties of Aluminium-Lithium Alloys Sheets Joints Obtained by Friction Stir Welding. Blanking Productions in Mechanical Engineering (Press Forging, Foundry and Other Productions). 2020. Vol. 18, Iss. 1. pp. 7–13.
21. Drits A. M., Ovchinnikov V. V., Igonkin B. L. Effect of Scandium Doping of Welding Wire on the Mechanica Properties and Structure of Welded Joints Made of Aluminium Alloys. Tsvetnye Metally. 2019. No. 4. pp. 67–78.
22. Drits A. M., Ovchinnikov V. V., Vasiliev P. A. Studies of Structure And Mechanical Properties of Al – Cu – Mg Alloy Joints Made by Friction Stir Welding. Technology of Light Alloys. 2019. Iss. 4. pp. 17–25.
23. Ovchinnikov V. V., Drits A. M., Skakova T. Yu. Technological Quality Support of Weld Seam Obtained by Friction Stir Method. Science Intensive Technologies in Mechanical Engineering. 2019. Iss. 12. pp. 11–21.
24. Ovchinnikov V. V., Drits A. M. Technological Peculiarities of Friction Welding with Al – Mg Aluminum Alloys Stir. Science Intensive Technologies in Mechanical Engineering. 2019. Iss. 3. pp. 7–20.
25. Drits A. M., Ovchinnikov V. V., Bakshaev V. A. Criteria for Choice of Parameters of Friction Stir Welding of Thin Aluminium Sheets. Tsvetnye Metally. 2018. No. 1. pp. 85–93.

Full content Investigation of structure and properties of the welded joint obtained by friction stir welding of 1580 alloy hot-rolled sheets
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