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The evaluation of properties of mechanically clinched joints made of ferrous and non-ferrous materials

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Nowadays, there are several reasons for the utilization of the sheets made of aluminum in the car body production. Besides decreasing the car body weight, there is a need to reduce fuel consumption of the vehicle as well as the environmental impact by lower production of emissions. Moreover, such reasons are mutually dependent or influence each other. The application of the aluminum sheets in hybrid car body production resulted in the need for innovative joining techniques, which could make it possible to successfully join sheets from aluminum alloys. Mechanical clinching is one of the new or innovative joining techniques, which belongs to cold-forming joining process, which makes it possible to join different kinds and thicknesses of sheets. Individual materials and thicknesses can be combined. The mechanically clinched joints are durable, and the joining process duration is very fast (duration of 1s) and does not have a distinctive impact on the environment; a protective layer of the sheets remains intact. The paper focuses on the evaluation of the properties of hybrid joints that were prepared by the single stroke clinching process with a rigid die. The hot-dip galvanized steel sheets DC06 and H220PD combined with the sheets from aluminum alloys EN AW 5754 (having different values of the hardness – H11, H22, and H24) and EN AW 6082 were used for joining. The results from experiments confirmed the mechanical clinching is the suitable technique for joining such combination of sheets. However, some considerations, such as the arrangement of the sheets about the punch and die, must be regarded.
Twórcy
  • Technical University of Košice, Faculty of Mechanical Engineering, Institute of Technology and Material Engineering, Letná 9, 042 00 Košice, Slovakia
  • Technical University of Košice, Faculty of Mechanical Engineering, Institute of Technology and Material Engineering, Letná 9, 042 00 Košice, Slovakia
autor
  • Technical University of Košice, Faculty of Mechanical Engineering, Institute of Technology and Material Engineering, Letná 9, 042 00 Košice, Slovakia
  • Technical University of Košice, Faculty of Mechanical Engineering, Institute of Technology and Material Engineering, Letná 9, 042 00 Košice, Slovakia
Bibliografia
  • 1. Monol S. S. and Ghosh S. A review of design and material selection for a hybrid vehicle. International Journal of Science and research, 5 (10), 2016, 1356–1364.
  • 2. Kaščák Ľ., Mucha J., Slota J. and Spišák E. Application of modern joining methods in car production. Oficyna Wydawnicza Politechniki Rzeszowskiej, 2013.
  • 3. Spišák E. and Kaščák Ľ. Joining car body sheets using the clinching method. Acta Mechanica Slovaca, 15 (1), 2011, 28–35.
  • 4. Eshtayeh M.M., Hrairi M. and Mohiuddin A.K.M. Clinching process for joining dissimilar materials: state of the art. International Journal of Advanced Manufacturing Technology, 82, 2016, 179–195.
  • 5. Hörhold R., Müller M., Merklein M. and Meschut G. Specimen’s geometry related influences on load-bearing capacity of joining aluminium and UHSS by innovative shear-clinching. Journal of Materials Science Research, 6 (4), 2017, 19–27.
  • 6. Lambiase F., Paoletti A. and Di Ilio A. Advances in mechanical clinching: employment of a rotating tool. Proc. of 17th International Conference on Sheet Metal (SHEMET17), Palermo, Italy 2017, 200–205.
  • 7. Zhang Y., Shan H., Li Y., Guo J., Luo Z. and Ma Ch. Y. Joining aluminium alloy 5052 sheets via novel hybrid resistance spot clinching process. Materials and Design, 118 (17), 2017, 36–43.
  • 8. Chen Ch., Zhao S., Cui M., Han X., Fan S. and Ishida T. An experimental study on the compressing forces for joining Al6061 sheets. Thin-Walled Structures, 108 (16), 2016, 56–63.
  • 9. He X. Clinching for sheet materials. Science and Technology of Advanced Materials, 17 (1), 2017, 381–405.
  • 10. Hahn O., Horstmann M. Mechanical joining of magnesium components by means of inductive heating. Material Science Forum, 2 (15), 2007, 539–543.
  • 11. Hahn O., Tan Y., and Schroeder M. Thermally supported mechanical joining of magnesium components. Material Science Forum, 7 (15), 2005, 488–489.
  • 12. Gude M., Hufenbach W., Kupfer R., Freund A. and Vogel Ch. Development of novel form-locked joints for textile reinforced thermoplastics and metallic components. Journal of Materials Processing Technology, 216 (10), 2015, 140–145.
  • 13. Lambiase F. and Ko D. Ch. Feasibility of mechanical clinching for joining aluminum AA6082-T6 and carbon fiber reinforced polymer sheets. Materials and Design, 107 (15) 2016, 341–352.
  • 14. Lambiase F., Di Ilio A. and Paoletti A. Joining aluminum alloys with reduced ductility by mechanical clinching. International Journal of Advanced Manufacturing Technologies, 77 (12), 2015, 1295–1304.
  • 15. Hörhold R., Müller M., Merklein M. and Meschut G. Mechanical properties of an innovative shear-clinching technology for ultra-high strength steel and aluminum in lightweight car body structures. Weld World, 60 (13), 2016, 613–620.
  • 16. Mucha J. The analysis of rectangular clinching joint in the shearing test. Maintenance and Reliability, 3 (17), 2011, 45–50.
  • 17. Balawender T. Low fatigue strength of clinch joints. Journal of Mechanics Engineering and Automation, 6 (2), 2016, 277–281.
  • 18. Krzton H., Mucha J. and Witkowski W. The application of laboratory X-ray micro-diffraction to study the effects of clinching process in steel sheets. Acta Physica Polonica A, 4 (130), 2016, 985–987.
  • 19. Huang Z. and Yanagimoto J. Dissimilar joining of aluminum alloy and stainless steel thin sheets by thermally assisted plastic deformation. Journal of Materials Processing Technology, 225 (4), 2015, 393–404.
  • 20. Abe Y., Kato T. and Mori K. Joining of high-strength steel and aluminum alloy sheets by mechanical clinching with dies for control of metal flow. Journal of Material Processing Technology, 212 (20), 2012, 884–889.
  • 21. Israel M., Mauermann R. and Schellnock J. Thick sheet clinching – joining up to 20 mm total thickness, Advanced Shipping and Ocean Engineering, 2 (1), 2013, 1–10.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c886e87b-a952-4f63-bd1c-3e73e66d076b
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