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Application of the 3D Digital Image Correlation to the analysis of deformation of joints welded with the FSW method after shot peening

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The three dimensional Digital Image Correlation (3D DIC) method is used for measurements of deformations and displacement in plane elements exposed to loading. The paper presents the experimental tests of an application of the ARAMIS system to the analysis of deformation of joints welded with the FSW method after shot peening treatment. The butt joints were made of 2024-T3 aluminum alloy sheets with the thickness of 1 mm, which next were peened with glass beads about granulation in range 500 ÷ 900 μm. Tests of residual stresses by X-ray diffraction were also carried out. The aim of the study was to analyze the impact of shot peening on the value of stresses and the location of deformations in butt joints.
Rocznik
Strony
57--66
Opis fizyczny
Bibliogr. 22 poz., tab., rys.
Twórcy
autor
  • Rzeszow University of Technology, Faculty of Mechanical Engineering and Aeronautics, Powstańców Warszawy 8, 35-959 Rzeszów, Poland
autor
  • Rzeszow University of Technology, Faculty of Mechanical Engineering and Aeronautics, Powstańców Warszawy 8, 35-959 Rzeszów, Poland
autor
  • Rzeszow University of Technology, Faculty of Mechanical Engineering and Aeronautics, Powstańców Warszawy 8, 35-959 Rzeszów, Poland
autor
  • Rzeszow University of Technology, Faculty of Mechanical Engineering and Aeronautics, Powstańców Warszawy 8, 35-959 Rzeszów, Poland
autor
  • Rzeszow University of Technology, Faculty of Mechanical Engineering and Aeronautics, Powstańców Warszawy 8, 35-959 Rzeszów, Poland
Bibliografia
  • 1 . Hatamleh O., Mishra R. S., Oliveras O.: Peening effects on mechanical properties in friction stir welded AA 2195 at elevated and cryogenic temperatures. Materials and Design, 30 (2009) 3165-3173.
  • 2 . Xu Y., Bao R.: Residual stress determination in friction stir butt welded joints using a digital image corre-lation-aided slitting technique. Chinese Journal of Aeronautics, 30 (2017) 1258-1269.
  • 3 . Padhy, G. K., Wu, C. S., Gao, S.: Friction stir based welding and processing technologies-processes, pa-rameters, microstructures and applications: A review. Journal of Materials Science & Technology, 34 (2018) 1-38.
  • 4 . Tashkandi M. A., Al-Jarrah J. A.: Ibrahim M. Increasing of the mechanical properties of friction stir welded joints of 6061 aluminum alloy by introducing alumina particles. Advances in Materials Science, 17 (2017) 29-40.
  • 5 . Guan W., Shen Y., Yan Y., Guo R., Zhang W.: Fabrication of ultra-thin copper foil pressure welding using FSW equipment. Journal of Materials Processing Tech., 251 (2018) 343-349.
  • 6 . Tuz L., Kołodziejczak P., Kolasa A.: Friction stir welding of AZ91 and AM-Lite magnesium alloys. Wel-ding International, 27 (4) (2011) 265-267.
  • 7 . Iwaszko, J., Kudła, K., Fila, K., Strzelecka, M.: The Effect of Friction Stir Processing (FSP) on the Mi-crostructure and Properties of AM60 Magnesium Alloy. Archives of Metallurgy and Materials, 61(3) (2016) 1555-1560.
  • 8 . Emami S., Saeid T., Abdollah-zadeh A.: Effect of friction stir welding parameters on the microstructure and microtexture evolution of SAF 2205 stainless steel. Journal of Alloys and Compounds, 810 (2019) 1-7.
  • 9 . Kasai H., Morisada Y., H. Fujii.: Dissimilar FSW of immiscible materials: Steel/magnesium. Materials Science & Engineering A, 624 (2015) 250-255.
  • 10 . Gao Y., Morisada Y., Fujii H., Liao J.: Dissimilar friction stir lap welding of magnesium to aluminum using plasma electrolytic oxidation interlayer. Material Science and Engineering A, 711(10) (2018) 109–118.
  • 11 . Sánchez Egea A.J., Rodríguez A., Celentano D., Calleja A., López de Lacalle L.N.: Joining metrics en-hancement when combining FSW and ball-burnishing in a 2050 aluminium alloy. Surface & Coatings Tech-nology, 367 (2019) 327-335.
  • 12 . Mira-Aguiar T., Verdera D., Leitao C., Rodrigues D. M.: Tool assisted friction welding: A FSW related technique for the linear lap welding of very thin steel plates. Journal of Materials Processing Technology, 238 (2016) 73-80.
  • 13 . Xu W., Luo Y., Zhang W., Fu M.: Comparative study on local and global mechanical properties of bob-bin tool and conventional friction stir welded 7085-T7452 aluminum thick plate. Journal of Materials Science & Technology, 34 (2018) 173-184.
  • 14 . Wang Z. B., He Z. B., Fan X. B., Zhou L., Lin Y. L., Yuan S. J.: High temperature deformation behavior of friction stir welded 2024-T4 aluminum alloy sheets. Journal of Materials Processing Tech., 247 (2017) 184-191.
  • 15 . Saranath K. M., Ramji M.: Local zone wise elastic and plastic properties of electron beam welded Ti–6Al–4V alloy using digital image correlation technique: A comparative study between uniform stress and virtual fields method. Optics and Lasers in Engineering, 68 (2015) 222-234.
  • 16 . Lusiak T., Knec M.: Use of ARAMIS for fatigue process control in the accelerated test for composites. Transportation Research Procedia, 35 (2018) 250-258.
  • 17 . Zielecki W., Kubit A., Święch Ł.: Experimental analysis of strain field of adherent in adhesive joint subjected to peel. Measurements Automation Robotics, 2 (2013) 71-78.
  • 18 . Leităo C., Galvăo I., Leal R.M., Rodrigues D.M.: Determination of local constitutive properties of alu-minium friction stir welds using digital image correlation. Materials and Design, 33 (2012) 69-74.
  • 19 . Bonarski J. T.: Pomiar i wykorzystanie teksturowo – naprężeniowej charakterystyki mikrostruktury w diagnostyce materiałów. Instytut Metalurgii i Inżynierii Materiałowej. Kraków. (2013).
  • 20 . Skrzypek S. J.: Nowe możliwości pomiaru makronaprężeń własnych materiałów przy zastosowaniu dyfrakcji promieniowania X w geometrii stałego kąta padania. Wydawnictwo AGH. Kraków. (2002).
  • 21 . Kluz R., Kubit A.: Effect of friction stir welding on the load capacity of the joint 2016, Assembly Tech-niques and Technologies, 2 (2016) 31-34.
  • 22 . Kubit A., Kluz R., Ochałek K., Wydrzyński D., Trzepieciński T.: Friction stir welding of 2024-T3 Alu-minium alloy sheet with sheet pre-heating. Materials and Technology, 52(3) (2018) 283–288.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-77d7b1d1-eb54-4d58-8c62-0c4718e8ec77
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