Dieses Bild zeigt Gerd Reichardt

Gerd Reichardt

Herr M.Eng.

Wissenschaftlicher Mitarbeiter
Institut für Umformtechnik
Blechumform-und Schneidverfahren

Kontakt

+49 711 685 83808
Visitenkarte (VCF)

Holzgartenstraße 17
70174 Stuttgart
Deutschland
Raum: 4.009

Fachgebiet

  • Tribologie
  • Blechumformung
  • Trockenumformen
  • Prozesssimulation
  • Prozessautomation
  • Messtechnik
  • Schweißfachingenieur

  1. 2023

    1. Reichle, P., Reichardt, G., Henn, M., Umlauf, G., Barz, J., Riedmüller, K. R., Liewald, M., & Tovar, G. E. M. (2023). Volatile Lubricants Injected Through Laser Drilled Micro Holes Enable Efficiently Hydrocarbon-Free Lubrication for Deep Drawing Processes. Int. J. Precis. Eng. Manuf.-Green Technol., 10, Article 4. https://doi.org/10.1007/s40684-023-00505-8
    2. Reichardt, G., Liewald, M., & Riedmüller, K. (2023). A study on economic tooling concepts for dry deep-drawing using environmentally benign volatile lubricants. Sheet Metal 2023 (SheMet) - Materials Research Proceedings, 25, 405–412. https://doi.org/10.21741/9781644902417-50

  2. 2022

    1. Reichardt, G., Henn, M., Reichle, P., Umlauf, G., Riedmüller, K., Weber, R., Barz, J., Liewald, M., Graf, T., & Tovar, G. E. M. (2022). Friction and wear behavior of deep drawing tools using volatile lubricants injected through laser-drilled micro-holes. Jom, 74, Article 3. https://doi.org/10.1007/s11837-021-05028-8
    2. Reichardt, G., & Liewald, M. (2022). Characterization of an Environmentally Friendly Tribological System for Deep Drawing Using Volatile Media as Lubricant Substitute. Defect and Diffusion Forum, 414, 75–80. https://doi.org/10.4028/p-65utsh

  3. 2021

    1. Reichardt, G., Henn, M., Reichle, P., Hemming, D., Umlauf, G., Riedmüller, K., Weber, R., Barz, J., Liewald, M., Graf, T., & Tovar, G. E. M. (2021). Investigations on the Process Stability of Dry Deep Drawing with Volatile Lubricants Injected Through Laser-Drilled Microholes. TMS 2021 150th Annual Meeting & Exhibition Supplemental Proceedings, 230–246. https://doi.org/10.1007/978-3-030-65261-6

  4. 2020

    1. Henn, M., Reichardt, G., Weber, R., Graf, T., & Liewald, M. (2020). Dry Metal Forming Using Volatile Lubricants Injected into the Forming Tool Through Flow-Optimized, Laser-Drilled Microholes. Jom, 72, Article 7. https://doi.org/10.1007/s11837-020-04169-6
    2. Henn, M., Reichardt, G., Weber, R., Graf, T., & Liewald, M. (2020). Advances in Dry Metal Forming Using Volatile Lubricants Injected Through Laser-Drilled Microholes. TMS 2020 - Supplemental Proceedings, 1979–1991. https://doi.org/10.1007/978-3-030-36296-6_182
    3. Reichardt, G., Woerz, C., Singer, M., Liewald, M., Henn, M., Förster, D., Zahedi, E., Boley, S., Feuer, A., Onuseit, V., Weber, R., Graf, T., Umlauf, G., Reichle, P., Barz, J., Tovar, G., & Hirth, T. (2020). Tribological system for cold sheet metal forming based on volatile lubricants and laser structured surfaces. Dry Metal Forming Open Access Journal, 6, Article Final Project Report. https://doi.org/10.26092/elib/156

  5. 2019

    1. Reichardt, G., & Liewald, M. (2019). Investigation on friction behaviour of deep drawing radii using volatile media as lubricant substitutes. Procedia Manufacturing, 29, 193–200. https://doi.org/10.1016/j.promfg.2019.02.126
    2. Reichardt, G., & Liewald, M. (2019). Friction conditions on deep-drawing tool radii when using volatile media as lubrication substitute. TMS 2019 148th Annual Meeting & Exhibition Supplemental Proceedings Proceedings, 1603–1613. https://doi.org/10.1007/978-3-030-05861-6_150
    3. Zahedi, E., Woerz, C., Reichardt, G., Umlauf, G., Liewald, M., Barz, J., Weber, R., Foerster, D. J., & Graf, T. (2019). Lubricant-free deep drawing using CO2 and N2 as volatile media injected through laser-drilled microholes. Manufacturing Review, 6, Article 11. https://doi.org/10.1051/mfreview/2019011
    4. Reichardt, G., Wörz, C., Liewald, M., Woerz, C., & Liewald, M. (2019). Investigation of the Friction Conditions Occurring During Dry Deep Drawing Using Volatile Media as Lubrication Substitution. In R. Schmitt & G. Schuh (Eds.), Advances in Production Research (pp. 750–762). Springer International Publishing. https://doi.org/10.1007/978-3-030-03451-1_72

  6. 2018

    1. Zahedi, E., Woerz, C., Reichardt, G., Umlauf, G., Liewald, M., Barz, J., Weber, R., & Graf, T. (2018). Lubricant-free deep drawing using CO2 and N2 as volatile media injected through laser-drilled microholes. MATEC Web of Conferences, 190, Article 9. https://doi.org/10.1051/matecconf/201819014007
    2. Liewald, M., Wörz, C., Reichardt, G., Karadogan, C., Lindemann, B., Woerz, C., Reichardt, G., Karadogan, C., Lindemann, B., & M. Liewald, C. Woerz, G. Reichardt, C. Karadogan, B. L. (2018). Volatile Media as Lubricant Substitutes in Deep Drawing and Tracking of Individual Workpieces in Hot Forging Plants. Acta Technica Napocensis. Series: Applied Mathematics, Mechanics, and Engineering, 61, Article 4. https://atna-mam.utcluj.ro/index.php/Acta/article/view/1111
    3. Wörz, C., Reichardt, G., Liewald, M., Zahedi, E., & Weber, R. (2018). Dry deep drawing of a rectangular cup assisted by volatile media injected from laser-drilled microholes. Dry Met. Forming OAJ FMT 4, 4, 1–8.
    4. Christoph, W., Reichardt, G., Liewald, M., Zahedi, E., Weber, R., & Graf, T. (2018). Dry deep drawing of a regular cup assisted by volatile media injected from laser-drilled mircoholes. Dry Metal Forming Open Access Journa. http://nbn-resolving.de/urn:nbn:de:gbv:46-00106391-18

Vorlesung:

  • Grundlagen der Umformtechnik des deutschsprachigen Studiengangs an der TU Cluj-Napoca, Rumänien
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