Lehrstuhl für Fertigungstechnologie, Universität Erlangen-Nürnberg



M.Sc. Markus Michalski



Egerlandstraße 13, 91058 Erlangen
Tel.: 09131/85-27783
Fax: 09131/85-27141
Mail address: This e-mail address is being protected from spambots. You need JavaScript enabled to view it


Projects


Research Groups


Publications

    2017

    • Leicht, U.; Michalski, M.; Merklein, M.:
      Ultraschallunterstütztes Umformen und Verstemmen - Aktuelle Ergebnisse aus dem Verbundprojekt "UltraCaulk".
      wt Werkstattstechnik online 107(2017)H. 1/2, pp. 52-58

    • Michalski, M.; Piott, F.; Merklein, M.:
      Compression testing of martensitic stainless steel with superimposed ultrasonic vibration.
      Procedia Engineering 207(2017), pp. 1970-1975

    • Michalski, M.; Leicht, U.; Heath, A.; Merklein, M.:
      Dynamic correction of oscillatory forces during ultrasonic-assisted metal forming.
      Production Engineering 11(2017)4-5, pp. 455-465

    2016

    • Hildering, S.; Michalski, M.; Engel, U.; Merklein, M.:
      Tool Load Sensitivity against Multidimensional Process Influences in Microblanking of Thin Metal Foils with Silicon Punches.
      J. Manuf. Sci. Eng. 138(2016)9, pp. 091004 1-9

    • Michalski, M.; Merklein, M.:
      Ultrasonic-Assisted Upsetting of Steel with 15 kHz Oscillation Frequency.
      Key Eng. Mater. 716(2016), pp. 544-551

    2015

    • Michalski, M.; Leicht, U.; Engler, S.; Merklein, M.:
      Tool System for Ultrasonic-Assisted Forming and Material Characterisation with 15 kHz Oscillation Frequency.
      Appl. Mech. Mater. 794(2015), pp. 427-434

    • Hildering, S.; Michalski, M.; Engel, U.; Merklein, M.:
      Tool Load Sensitivity against Multidimensional Process Influences in Microblanking of Thin Metal Foils with Silicon Punches.
      In: ASME (Edtr.): Proceedings of the ASME 2015 International Manufacturing Science and Engineering Conference, 2015, pp. 1-10

    • Michalski, M.; Merklein, M.:
      Ultraschallunterstützte Umformung von Metallen - Entwicklung eines Prüfstands zur Werkstoffcharakterisierung mit 15 kHz Schwingungsüberlagerung.
      wt Werkstattstechnik online 105(2015)H. 10, pp. 715-721