[{"title":"Oxide Modified Iron in Electron Beam Powder Bed Fusion—From Processability to Corrosion Properties","doi":"10.3390/alloys1010004","date_updated":"2025-11-18T12:04:45Z","publisher":"MDPI AG","volume":1,"date_created":"2025-11-18T12:01:42Z","author":[{"first_name":"Christof J. J.","last_name":"Torrent","full_name":"Torrent, Christof J. J."},{"full_name":"Krooß, Philipp","last_name":"Krooß","first_name":"Philipp"},{"first_name":"Jingyuan","last_name":"Huang","full_name":"Huang, Jingyuan"},{"first_name":"Markus","last_name":"Voigt","full_name":"Voigt, Markus","id":"15182"},{"first_name":"Christoph","last_name":"Ebbert","full_name":"Ebbert, Christoph","id":"7266"},{"last_name":"Knust","full_name":"Knust, Steffen","first_name":"Steffen"},{"last_name":"Grundmeier","id":"194","full_name":"Grundmeier, Guido","first_name":"Guido"},{"first_name":"Thomas","full_name":"Niendorf, Thomas","last_name":"Niendorf"}],"year":"2022","intvolume":" 1","page":"31-53","citation":{"apa":"Torrent, C. J. J., Krooß, P., Huang, J., Voigt, M., Ebbert, C., Knust, S., Grundmeier, G., & Niendorf, T. (2022). Oxide Modified Iron in Electron Beam Powder Bed Fusion—From Processability to Corrosion Properties. Alloys, 1(1), 31–53. https://doi.org/10.3390/alloys1010004","short":"C.J.J. Torrent, P. Krooß, J. Huang, M. Voigt, C. Ebbert, S. Knust, G. Grundmeier, T. Niendorf, Alloys 1 (2022) 31–53.","mla":"Torrent, Christof J. J., et al. “Oxide Modified Iron in Electron Beam Powder Bed Fusion—From Processability to Corrosion Properties.” Alloys, vol. 1, no. 1, MDPI AG, 2022, pp. 31–53, doi:10.3390/alloys1010004.","bibtex":"@article{Torrent_Krooß_Huang_Voigt_Ebbert_Knust_Grundmeier_Niendorf_2022, title={Oxide Modified Iron in Electron Beam Powder Bed Fusion—From Processability to Corrosion Properties}, volume={1}, DOI={10.3390/alloys1010004}, number={1}, journal={Alloys}, publisher={MDPI AG}, author={Torrent, Christof J. J. and Krooß, Philipp and Huang, Jingyuan and Voigt, Markus and Ebbert, Christoph and Knust, Steffen and Grundmeier, Guido and Niendorf, Thomas}, year={2022}, pages={31–53} }","chicago":"Torrent, Christof J. J., Philipp Krooß, Jingyuan Huang, Markus Voigt, Christoph Ebbert, Steffen Knust, Guido Grundmeier, and Thomas Niendorf. “Oxide Modified Iron in Electron Beam Powder Bed Fusion—From Processability to Corrosion Properties.” Alloys 1, no. 1 (2022): 31–53. https://doi.org/10.3390/alloys1010004.","ieee":"C. J. J. Torrent et al., “Oxide Modified Iron in Electron Beam Powder Bed Fusion—From Processability to Corrosion Properties,” Alloys, vol. 1, no. 1, pp. 31–53, 2022, doi: 10.3390/alloys1010004.","ama":"Torrent CJJ, Krooß P, Huang J, et al. Oxide Modified Iron in Electron Beam Powder Bed Fusion—From Processability to Corrosion Properties. Alloys. 2022;1(1):31-53. doi:10.3390/alloys1010004"},"publication_identifier":{"issn":["2674-063X"]},"publication_status":"published","issue":"1","language":[{"iso":"eng"}],"_id":"62235","department":[{"_id":"35"},{"_id":"302"},{"_id":"321"}],"user_id":"7266","abstract":[{"lang":"eng","text":"Additive manufacturing (AM) processes are not solely used where maximum design freedom meets low lot sizes. Direct microstructure design and topology optimization can be realized concomitantly during processing by adjusting the geometry, the material composition, and the solidification behavior of the material considered. However, when complex specific requirements have to be met, a targeted part design is highly challenging. In the field of biodegradable implant surgery, a cytocompatible material of an application-adapted shape has to be characterized by a specific degradation behavior and reliably predictable mechanical properties. For instance, small amounts of oxides can have a significant effect on microstructural development, thus likewise affecting the strength and corrosion behavior of the processed material. In the present study, biocompatible pure Fe was processed using electron powder bed fusion (E-PBF). Two different modifications of the Fe were processed by incorporating Fe oxide and Ce oxide in different proportions in order to assess their impact on the microstructural evolution, the mechanical response and the corrosion behavior. The quasistatic mechanical and chemical properties were analyzed and correlated with the final microstructural appearance."}],"status":"public","publication":"Alloys","type":"journal_article"},{"status":"public","type":"journal_article","publication":"European Journal of Mechanics - A/Solids","article_number":"104854","language":[{"iso":"eng"}],"_id":"62771","user_id":"85414","department":[{"_id":"952"},{"_id":"321"}],"year":"2022","citation":{"short":"R. Schulte, C. Karca, R. Ostwald, A. Menzel, European Journal of Mechanics - A/Solids 98 (2022).","bibtex":"@article{Schulte_Karca_Ostwald_Menzel_2022, title={Machine learning-assisted parameter identification for constitutive models based on concatenated loading path sequences}, volume={98}, DOI={10.1016/j.euromechsol.2022.104854}, number={104854}, journal={European Journal of Mechanics - A/Solids}, publisher={Elsevier BV}, author={Schulte, Robin and Karca, Cavid and Ostwald, Richard and Menzel, Andreas}, year={2022} }","mla":"Schulte, Robin, et al. “Machine Learning-Assisted Parameter Identification for Constitutive Models Based on Concatenated Loading Path Sequences.” European Journal of Mechanics - A/Solids, vol. 98, 104854, Elsevier BV, 2022, doi:10.1016/j.euromechsol.2022.104854.","apa":"Schulte, R., Karca, C., Ostwald, R., & Menzel, A. (2022). Machine learning-assisted parameter identification for constitutive models based on concatenated loading path sequences. European Journal of Mechanics - A/Solids, 98, Article 104854. https://doi.org/10.1016/j.euromechsol.2022.104854","chicago":"Schulte, Robin, Cavid Karca, Richard Ostwald, and Andreas Menzel. “Machine Learning-Assisted Parameter Identification for Constitutive Models Based on Concatenated Loading Path Sequences.” European Journal of Mechanics - A/Solids 98 (2022). https://doi.org/10.1016/j.euromechsol.2022.104854.","ieee":"R. Schulte, C. Karca, R. Ostwald, and A. Menzel, “Machine learning-assisted parameter identification for constitutive models based on concatenated loading path sequences,” European Journal of Mechanics - A/Solids, vol. 98, Art. no. 104854, 2022, doi: 10.1016/j.euromechsol.2022.104854.","ama":"Schulte R, Karca C, Ostwald R, Menzel A. Machine learning-assisted parameter identification for constitutive models based on concatenated loading path sequences. European Journal of Mechanics - A/Solids. 2022;98. doi:10.1016/j.euromechsol.2022.104854"},"intvolume":" 98","publication_status":"published","publication_identifier":{"issn":["0997-7538"]},"quality_controlled":"1","title":"Machine learning-assisted parameter identification for constitutive models based on concatenated loading path sequences","doi":"10.1016/j.euromechsol.2022.104854","publisher":"Elsevier BV","date_updated":"2025-12-03T12:50:06Z","date_created":"2025-12-03T12:49:17Z","author":[{"first_name":"Robin","full_name":"Schulte, Robin","last_name":"Schulte"},{"full_name":"Karca, Cavid","last_name":"Karca","first_name":"Cavid"},{"first_name":"Richard","last_name":"Ostwald","orcid":"0000-0003-2147-8444","id":"106876","full_name":"Ostwald, Richard"},{"full_name":"Menzel, Andreas","last_name":"Menzel","first_name":"Andreas"}],"volume":98},{"volume":6,"author":[{"last_name":"Wackenrohr","full_name":"Wackenrohr, Steffen","first_name":"Steffen"},{"last_name":"Torrent","full_name":"Torrent, Christof Johannes Jaime","first_name":"Christof Johannes Jaime"},{"last_name":"Herbst","full_name":"Herbst, Sebastian","first_name":"Sebastian"},{"full_name":"Nürnberger, Florian","last_name":"Nürnberger","first_name":"Florian"},{"first_name":"Philipp","full_name":"Krooss, Philipp","last_name":"Krooss"},{"first_name":"Christoph","last_name":"Ebbert","id":"7266","full_name":"Ebbert, Christoph"},{"id":"15182","full_name":"Voigt, Markus","last_name":"Voigt","first_name":"Markus"},{"first_name":"Guido","full_name":"Grundmeier, Guido","id":"194","last_name":"Grundmeier"},{"last_name":"Niendorf","full_name":"Niendorf, Thomas","first_name":"Thomas"},{"last_name":"Maier","full_name":"Maier, Hans Jürgen","first_name":"Hans Jürgen"}],"date_created":"2025-12-18T11:55:16Z","publisher":"Springer Science and Business Media LLC","date_updated":"2025-12-18T11:56:57Z","doi":"10.1038/s41529-022-00226-4","title":"Corrosion fatigue behavior of electron beam melted iron in simulated body fluid","issue":"1","publication_identifier":{"issn":["2397-2106"]},"publication_status":"published","intvolume":" 6","citation":{"apa":"Wackenrohr, S., Torrent, C. J. J., Herbst, S., Nürnberger, F., Krooss, P., Ebbert, C., Voigt, M., Grundmeier, G., Niendorf, T., & Maier, H. J. (2022). Corrosion fatigue behavior of electron beam melted iron in simulated body fluid. Npj Materials Degradation, 6(1), Article 18. https://doi.org/10.1038/s41529-022-00226-4","mla":"Wackenrohr, Steffen, et al. “Corrosion Fatigue Behavior of Electron Beam Melted Iron in Simulated Body Fluid.” Npj Materials Degradation, vol. 6, no. 1, 18, Springer Science and Business Media LLC, 2022, doi:10.1038/s41529-022-00226-4.","short":"S. Wackenrohr, C.J.J. Torrent, S. Herbst, F. Nürnberger, P. Krooss, C. Ebbert, M. Voigt, G. Grundmeier, T. Niendorf, H.J. Maier, Npj Materials Degradation 6 (2022).","bibtex":"@article{Wackenrohr_Torrent_Herbst_Nürnberger_Krooss_Ebbert_Voigt_Grundmeier_Niendorf_Maier_2022, title={Corrosion fatigue behavior of electron beam melted iron in simulated body fluid}, volume={6}, DOI={10.1038/s41529-022-00226-4}, number={118}, journal={npj Materials Degradation}, publisher={Springer Science and Business Media LLC}, author={Wackenrohr, Steffen and Torrent, Christof Johannes Jaime and Herbst, Sebastian and Nürnberger, Florian and Krooss, Philipp and Ebbert, Christoph and Voigt, Markus and Grundmeier, Guido and Niendorf, Thomas and Maier, Hans Jürgen}, year={2022} }","chicago":"Wackenrohr, Steffen, Christof Johannes Jaime Torrent, Sebastian Herbst, Florian Nürnberger, Philipp Krooss, Christoph Ebbert, Markus Voigt, Guido Grundmeier, Thomas Niendorf, and Hans Jürgen Maier. “Corrosion Fatigue Behavior of Electron Beam Melted Iron in Simulated Body Fluid.” Npj Materials Degradation 6, no. 1 (2022). https://doi.org/10.1038/s41529-022-00226-4.","ieee":"S. Wackenrohr et al., “Corrosion fatigue behavior of electron beam melted iron in simulated body fluid,” npj Materials Degradation, vol. 6, no. 1, Art. no. 18, 2022, doi: 10.1038/s41529-022-00226-4.","ama":"Wackenrohr S, Torrent CJJ, Herbst S, et al. Corrosion fatigue behavior of electron beam melted iron in simulated body fluid. npj Materials Degradation. 2022;6(1). doi:10.1038/s41529-022-00226-4"},"year":"2022","department":[{"_id":"35"},{"_id":"302"},{"_id":"321"}],"user_id":"7266","_id":"63206","language":[{"iso":"eng"}],"article_number":"18","publication":"npj Materials Degradation","type":"journal_article","status":"public","abstract":[{"lang":"eng","text":"AbstractPure iron is very attractive as a biodegradable implant material due to its high biocompatibility. In combination with additive manufacturing, which facilitates great flexibility of the implant design, it is possible to selectively adjust the microstructure of the material in the process, thereby control the corrosion and fatigue behavior. In the present study, conventional hot-rolled (HR) pure iron is compared to pure iron manufactured by electron beam melting (EBM). The microstructure, the corrosion behavior and the fatigue properties were studied comprehensively. The investigated sample conditions showed significant differences in the microstructures that led to changes in corrosion and fatigue properties. The EBM iron showed significantly lower fatigue strength compared to the HR iron. These different fatigue responses were observed under purely mechanical loading as well as with superimposed corrosion influence and are summarized in a model that describes the underlying failure mechanisms."}]},{"department":[{"_id":"9"},{"_id":"876"},{"_id":"321"}],"user_id":"14972","_id":"52428","extern":"1","language":[{"iso":"ger"}],"type":"misc","status":"public","author":[{"first_name":"Alexander","full_name":"Schlüter, Alexander","id":"103302","orcid":"0000-0002-2569-1624","last_name":"Schlüter"}],"date_created":"2024-03-10T08:08:57Z","publisher":"Marcus Nettelbeck","date_updated":"2026-03-10T12:36:50Z","title":"2050 - The Future Podcast, Folge Smarte Energien für die Zukunft","citation":{"apa":"Schlüter, A. (2022). 2050 - The Future Podcast, Folge Smarte Energien für die Zukunft. Marcus Nettelbeck.","bibtex":"@book{Schlüter_2022, title={2050 - The Future Podcast, Folge Smarte Energien für die Zukunft}, publisher={Marcus Nettelbeck}, author={Schlüter, Alexander}, year={2022} }","short":"A. Schlüter, 2050 - The Future Podcast, Folge Smarte Energien für die Zukunft, Marcus Nettelbeck, 2022.","mla":"Schlüter, Alexander. 2050 - The Future Podcast, Folge Smarte Energien für die Zukunft. Marcus Nettelbeck, 2022.","chicago":"Schlüter, Alexander. 2050 - The Future Podcast, Folge Smarte Energien für die Zukunft. Marcus Nettelbeck, 2022.","ieee":"A. Schlüter, 2050 - The Future Podcast, Folge Smarte Energien für die Zukunft. Marcus Nettelbeck, 2022.","ama":"Schlüter A. 2050 - The Future Podcast, Folge Smarte Energien für die Zukunft. Marcus Nettelbeck; 2022."},"year":"2022"},{"user_id":"32","department":[{"_id":"321"},{"_id":"301"}],"_id":"25272","language":[{"iso":"eng"}],"type":"journal_article","publication":"ChemElectroChem","status":"public","author":[{"first_name":"Katja","last_name":"Engelkemeier","full_name":"Engelkemeier, Katja"},{"full_name":"Sun, Aijia","last_name":"Sun","first_name":"Aijia"},{"last_name":"Voswinkel","full_name":"Voswinkel, Dietrich","first_name":"Dietrich"},{"first_name":"Olexandr","last_name":"Grydin","full_name":"Grydin, Olexandr"},{"first_name":"Mirko","last_name":"Schaper","full_name":"Schaper, Mirko"},{"first_name":"Wolfgang","full_name":"Bremser, Wolfgang","id":"32","last_name":"Bremser"}],"date_created":"2021-10-04T08:35:07Z","date_updated":"2022-01-06T06:56:58Z","doi":"10.1002/celc.202100216","title":"Zinc Anodizing: Structural Diversity of Anodic Zinc Oxide Controlled by the Type of Electrolyte","publication_status":"published","publication_identifier":{"issn":["2196-0216","2196-0216"]},"citation":{"bibtex":"@article{Engelkemeier_Sun_Voswinkel_Grydin_Schaper_Bremser_2021, title={Zinc Anodizing: Structural Diversity of Anodic Zinc Oxide Controlled by the Type of Electrolyte}, DOI={10.1002/celc.202100216}, journal={ChemElectroChem}, author={Engelkemeier, Katja and Sun, Aijia and Voswinkel, Dietrich and Grydin, Olexandr and Schaper, Mirko and Bremser, Wolfgang}, year={2021}, pages={2155–2168} }","short":"K. Engelkemeier, A. Sun, D. Voswinkel, O. Grydin, M. Schaper, W. Bremser, ChemElectroChem (2021) 2155–2168.","mla":"Engelkemeier, Katja, et al. “Zinc Anodizing: Structural Diversity of Anodic Zinc Oxide Controlled by the Type of Electrolyte.” ChemElectroChem, 2021, pp. 2155–68, doi:10.1002/celc.202100216.","apa":"Engelkemeier, K., Sun, A., Voswinkel, D., Grydin, O., Schaper, M., & Bremser, W. (2021). Zinc Anodizing: Structural Diversity of Anodic Zinc Oxide Controlled by the Type of Electrolyte. ChemElectroChem, 2155–2168. https://doi.org/10.1002/celc.202100216","ama":"Engelkemeier K, Sun A, Voswinkel D, Grydin O, Schaper M, Bremser W. Zinc Anodizing: Structural Diversity of Anodic Zinc Oxide Controlled by the Type of Electrolyte. ChemElectroChem. Published online 2021:2155-2168. doi:10.1002/celc.202100216","chicago":"Engelkemeier, Katja, Aijia Sun, Dietrich Voswinkel, Olexandr Grydin, Mirko Schaper, and Wolfgang Bremser. “Zinc Anodizing: Structural Diversity of Anodic Zinc Oxide Controlled by the Type of Electrolyte.” ChemElectroChem, 2021, 2155–68. https://doi.org/10.1002/celc.202100216.","ieee":"K. Engelkemeier, A. Sun, D. Voswinkel, O. Grydin, M. Schaper, and W. Bremser, “Zinc Anodizing: Structural Diversity of Anodic Zinc Oxide Controlled by the Type of Electrolyte,” ChemElectroChem, pp. 2155–2168, 2021, doi: 10.1002/celc.202100216."},"page":"2155-2168","year":"2021"},{"year":"2021","citation":{"ama":"Moritzer E, Krassmann D, Brikmann J. Joining of Sheet Metal and Thermoplastic Composites Using Injection Riveting. In: ; 2021.","chicago":"Moritzer, Elmar, Dimitri Krassmann, and Johannes Brikmann. “Joining of Sheet Metal and Thermoplastic Composites Using Injection Riveting,” 2021.","ieee":"E. Moritzer, D. Krassmann, and J. Brikmann, “Joining of Sheet Metal and Thermoplastic Composites Using Injection Riveting,” presented at the 74th Annual Assembly of the International Institute of Welding (IIW), 2021.","bibtex":"@inproceedings{Moritzer_Krassmann_Brikmann_2021, title={Joining of Sheet Metal and Thermoplastic Composites Using Injection Riveting}, author={Moritzer, Elmar and Krassmann, Dimitri and Brikmann, Johannes}, year={2021} }","mla":"Moritzer, Elmar, et al. Joining of Sheet Metal and Thermoplastic Composites Using Injection Riveting. 2021.","short":"E. Moritzer, D. Krassmann, J. Brikmann, in: 2021.","apa":"Moritzer, E., Krassmann, D., & Brikmann, J. (2021). Joining of Sheet Metal and Thermoplastic Composites Using Injection Riveting. 74th Annual Assembly of the International Institute of Welding (IIW)."},"title":"Joining of Sheet Metal and Thermoplastic Composites Using Injection Riveting","conference":{"name":"74th Annual Assembly of the International Institute of Welding (IIW)"},"date_updated":"2022-01-06T06:57:07Z","author":[{"id":"20531","full_name":"Moritzer, Elmar","last_name":"Moritzer","first_name":"Elmar"},{"last_name":"Krassmann","id":"41916","full_name":"Krassmann, Dimitri","first_name":"Dimitri"},{"last_name":"Brikmann","full_name":"Brikmann, Johannes","first_name":"Johannes"}],"date_created":"2021-10-06T14:26:42Z","status":"public","type":"conference","language":[{"iso":"eng"}],"_id":"25576","user_id":"41916","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}]},{"volume":15,"date_created":"2021-10-06T14:37:27Z","author":[{"full_name":"Moritzer, Elmar","id":"20531","last_name":"Moritzer","first_name":"Elmar"},{"first_name":"Dimitri","last_name":"Krassmann","full_name":"Krassmann, Dimitri","id":"41916"},{"first_name":"Johannes","last_name":"Brikmann","full_name":"Brikmann, Johannes"}],"date_updated":"2022-01-06T06:57:07Z","title":"Fügen von thermoplastischen Composites mit Metallteilen durch Spritznieten","issue":"3-4","intvolume":" 15","citation":{"mla":"Moritzer, Elmar, et al. “Fügen von Thermoplastischen Composites Mit Metallteilen Durch Spritznieten.” Joining Plastics, vol. 15, no. 3–4, 2021.","bibtex":"@article{Moritzer_Krassmann_Brikmann_2021, title={Fügen von thermoplastischen Composites mit Metallteilen durch Spritznieten}, volume={15}, number={3–4}, journal={Joining Plastics}, author={Moritzer, Elmar and Krassmann, Dimitri and Brikmann, Johannes}, year={2021} }","short":"E. Moritzer, D. Krassmann, J. Brikmann, Joining Plastics 15 (2021).","apa":"Moritzer, E., Krassmann, D., & Brikmann, J. (2021). Fügen von thermoplastischen Composites mit Metallteilen durch Spritznieten. Joining Plastics, 15(3–4).","ama":"Moritzer E, Krassmann D, Brikmann J. Fügen von thermoplastischen Composites mit Metallteilen durch Spritznieten. Joining Plastics. 2021;15(3-4).","ieee":"E. Moritzer, D. Krassmann, and J. Brikmann, “Fügen von thermoplastischen Composites mit Metallteilen durch Spritznieten,” Joining Plastics, vol. 15, no. 3–4, 2021.","chicago":"Moritzer, Elmar, Dimitri Krassmann, and Johannes Brikmann. “Fügen von Thermoplastischen Composites Mit Metallteilen Durch Spritznieten.” Joining Plastics 15, no. 3–4 (2021)."},"year":"2021","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"user_id":"41916","_id":"25577","language":[{"iso":"eng"}],"publication":"Joining Plastics","type":"journal_article","status":"public"},{"title":"Forming Simulation of Tailored Press Hardened Parts","conference":{"start_date":"2021-10-04","name":"13th European LS-DYNA Conference 2021","location":"Ulm","end_date":"2021-10-06"},"main_file_link":[{"open_access":"1","url":"https://www.dynalook.com/conferences/13th-european-ls-dyna-conference-2021/forming/triebus_paderborn_university.pdf"}],"date_updated":"2022-01-06T06:58:05Z","oa":"1","author":[{"first_name":"Marcel","last_name":"Triebus","full_name":"Triebus, Marcel","id":"66036"},{"full_name":"Reitz, Alexander","id":"24803","orcid":"0000-0001-9047-467X","last_name":"Reitz","first_name":"Alexander"},{"first_name":"Olexandr","id":"43822","full_name":"Grydin, Olexandr","last_name":"Grydin"},{"first_name":"Julian","last_name":"Grenz","full_name":"Grenz, Julian"},{"last_name":"Schneidt","full_name":"Schneidt, Andreas","first_name":"Andreas"},{"last_name":"Erhardt","full_name":"Erhardt, Rüdiger","first_name":"Rüdiger"},{"first_name":"Thomas","last_name":"Tröster","id":"553","full_name":"Tröster, Thomas"},{"id":"43720","full_name":"Schaper, Mirko","last_name":"Schaper","first_name":"Mirko"}],"date_created":"2021-12-08T10:09:49Z","year":"2021","citation":{"bibtex":"@inproceedings{Triebus_Reitz_Grydin_Grenz_Schneidt_Erhardt_Tröster_Schaper_2021, title={Forming Simulation of Tailored Press Hardened Parts}, booktitle={13th European LS-DYNA Conference 2021}, author={Triebus, Marcel and Reitz, Alexander and Grydin, Olexandr and Grenz, Julian and Schneidt, Andreas and Erhardt, Rüdiger and Tröster, Thomas and Schaper, Mirko}, year={2021} }","short":"M. Triebus, A. Reitz, O. Grydin, J. Grenz, A. Schneidt, R. Erhardt, T. Tröster, M. Schaper, in: 13th European LS-DYNA Conference 2021, 2021.","mla":"Triebus, Marcel, et al. “Forming Simulation of Tailored Press Hardened Parts.” 13th European LS-DYNA Conference 2021, 2021.","apa":"Triebus, M., Reitz, A., Grydin, O., Grenz, J., Schneidt, A., Erhardt, R., Tröster, T., & Schaper, M. (2021). Forming Simulation of Tailored Press Hardened Parts. 13th European LS-DYNA Conference 2021. 13th European LS-DYNA Conference 2021, Ulm.","ieee":"M. Triebus et al., “Forming Simulation of Tailored Press Hardened Parts,” presented at the 13th European LS-DYNA Conference 2021, Ulm, 2021.","chicago":"Triebus, Marcel, Alexander Reitz, Olexandr Grydin, Julian Grenz, Andreas Schneidt, Rüdiger Erhardt, Thomas Tröster, and Mirko Schaper. “Forming Simulation of Tailored Press Hardened Parts.” In 13th European LS-DYNA Conference 2021, 2021.","ama":"Triebus M, Reitz A, Grydin O, et al. 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Separation of Multi-Component Parts for Mechanical Recycling – An Approach to Produce Hard-Soft Combinations with a Better Recyclability. 79th Annual Technical Conference of the Society of Plastics Engineers (ANTEC)."},"date_updated":"2022-01-06T06:56:27Z","author":[{"first_name":"Matthias","id":"13142","full_name":"Hopp, Matthias","last_name":"Hopp"},{"first_name":"Frederik Marvin","full_name":"Mühlhoff, Frederik Marvin","id":"41312","last_name":"Mühlhoff"}],"date_created":"2021-09-15T12:38:56Z","title":"Separation of Multi-Component Parts for Mechanical Recycling – An Approach to Produce Hard-Soft Combinations with a Better Recyclability"}]