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M.Eng. Patrick Striemann

M.Eng. Patrick Striemann Photo of M.Eng. Patrick Striemann

Contents

Research Activities

  • Development of a procedure for the characterization of 3D printed continuous fiber-reinforced lightweight structures

Publications

  • 7) Striemann, P.; Hülsbusch, D.; Mrzljak, S.; Niedermeier, M.; Walther, F.:
    Systematic approach for the characterization of additive manufactured and injection molded short carbon fiber-reinforced polymers under tensile loading.
    Materials Testing 62(2020) 6, 561-567. https://doi.org/10.3139/120.111517 Publikation als PDF-Datei anschauen.

  • 6) Striemann, P.; Hülsbusch, D.; Niedermeier, M.; Walther, F.:
    Optimization and quality evaluation of the interlayer bonding performance of additively manufactured polymer structures.
    Polymers 12, 1166 (2020) 1-11. https://doi.org/10.3390/polym12051166 Publikation als PDF-Datei anschauen.

  • 5) Hülsbusch, D.; Kohl, A.; Striemann, P.; Niedermeier, M.; Strauch, J.; Walther, F.:
    Development of an energy-based approach for optimized frequency selection for fatigue testing on polymers – Exemplified on polyamide 6.
    Polymer Testing 81 (2020) 106260 1-8. https://doi.org/10.1016/j.polymertesting.2019.106260

  • 4) Hülsbusch, D.; Kohl, A.; Mrzljak, S.; Fehrenbacher, U.; Emig, J.; Striemann, P.; Niedermeier, M.; Walther, F.:
    An energy rate approach for optimized frequency selection for reproducible fatigue assessment of composites.
    ICCM22, Proc. of the 22nd International Conference on Composite Materials (2019) 1-8.

  • 3) Striemann, P.; Hülsbusch, D.; Mrzljak, S.; Niedermeier, M.; Walther, F.:
    Effective tensile strength of additively manufactured discontinuous carbon fiber-reinforced polymer via computed tomography.
    ICCM22, Proc. of the 22nd International Conference on Composite Materials (2019) 1-9.

  • 2) Striemann, P.; Hülsbusch, D.; Niedermeier, M.; Walther, F.:
    Quasi-static characterization of polyamide-based discontinuous CFRP manufactured by additive manufacturing and injection molding.
    Key Engineering Materials 809, ISSN 1662-9795 (2019) 386-391. https://doi.org/10.4028/www.scientific.net/KEM.809.386

  • 1) Striemann, P.; Eichenhofer, M.; Schupp, D.; Niedermeier, M.; Hülsbusch, D.; Walther, F.:
    Compression testing of additively manufactured continuous carbon fiber-reinforced sandwich structures.
    Materials Testing 60, 9 (2018) 801 – 808. https://doi.org/10.3139/120.111216 Publikation als PDF-Datei anschauen.

A collective list of the publications can be reviewed here.

 

Presentations

  • 4) Striemann, P. (V.); Hülsbusch, D.; Niedermeier, M.; Walther, F.:
    Optimierung der Grenzschichtqualität von additiv gefertigten Kunststoffen durch eine in situ Infrarotheizung.
    Werkstoffwoche 2019, Dresden, 18.-20. Sept. (2019).

  • 3) Hülsbusch, D. (V.); Kohl, A.; Mrzljak, S.; Fehrenbacher, U.; Emig, J.; Striemann, P.; Niedermeier, M.; Walther, F.:
    An energy rate approach for optimized frequency selection for reproducible fatigue assessment of composites.
    ICCM22, 22nd International Conference on Composite Materials, Melbourne, Australia, 11.-16. Aug. (2019).

  • 2) Striemann, P. (V.); Hülsbusch, D.; Mrzljak, S.; Niedermeier, M.; Walther, F.:
    Effective tensile strength of additively manufactured discontinuous carbon fiber-reinforced polymer via computed tomography.
    ICCM22, 22nd International Conference on Composite Materials, Melbourne, Australia, 11.-16. Aug. (2019).

  • 1) Striemann, P. (V.); Hülsbusch, D.; Niedermeier, M.; Walther, F.:
    Quasi-static characterization of polyamide-based discontinuous CFRP manufactured by additive manufacturing and injection molding.
    22. Symposium Verbundwerkstoffe und Werkstoffverbunde, Kaiserslautern, 26.-28. Juni (2019).

A collective list of the presentations can be reviewed here.