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Erman Tekkaya, and Andreas Menzel. “ADAPT — A Diversely Applicable Parameter Identification Tool: Overview and Full-Field Application Examples.” International Journal of Mechanical Sciences 213 (2021). https://doi.org/10.1016/j.ijmecsci.2021.106840.","short":"A. Schowtjak, R. Schulte, T. Clausmeyer, R. Ostwald, A.E. Tekkaya, A. Menzel, International Journal of Mechanical Sciences 213 (2021).","ieee":"A. Schowtjak, R. Schulte, T. Clausmeyer, R. Ostwald, A. E. Tekkaya, and A. Menzel, “ADAPT — A Diversely Applicable Parameter Identification Tool: Overview and full-field application examples,” International Journal of Mechanical Sciences, vol. 213, Art. no. 106840, 2021, doi: 10.1016/j.ijmecsci.2021.106840.","mla":"Schowtjak, Alexander, et al. “ADAPT — A Diversely Applicable Parameter Identification Tool: Overview and Full-Field Application Examples.” International Journal of Mechanical Sciences, vol. 213, 106840, Elsevier BV, 2021, doi:10.1016/j.ijmecsci.2021.106840.","apa":"Schowtjak, A., Schulte, R., Clausmeyer, T., Ostwald, R., Tekkaya, A. E., & Menzel, A. (2021). ADAPT — A Diversely Applicable Parameter Identification Tool: Overview and full-field application examples. International Journal of Mechanical Sciences, 213, Article 106840. https://doi.org/10.1016/j.ijmecsci.2021.106840","bibtex":"@article{Schowtjak_Schulte_Clausmeyer_Ostwald_Tekkaya_Menzel_2021, title={ADAPT — A Diversely Applicable Parameter Identification Tool: Overview and full-field application examples}, volume={213}, DOI={10.1016/j.ijmecsci.2021.106840}, number={106840}, journal={International Journal of Mechanical Sciences}, publisher={Elsevier BV}, author={Schowtjak, Alexander and Schulte, Robin and Clausmeyer, Till and Ostwald, Richard and Tekkaya, A. Erman and Menzel, Andreas}, year={2021} }","ama":"Schowtjak A, Schulte R, Clausmeyer T, Ostwald R, Tekkaya AE, Menzel A. ADAPT — A Diversely Applicable Parameter Identification Tool: Overview and full-field application examples. International Journal of Mechanical Sciences. 2021;213. doi:10.1016/j.ijmecsci.2021.106840"},"department":[{"_id":"952"},{"_id":"321"}],"publisher":"Elsevier BV","quality_controlled":"1","publication":"International Journal of Mechanical Sciences","date_created":"2025-12-03T12:51:45Z","status":"public","type":"journal_article","year":"2021","publication_identifier":{"issn":["0020-7403"]},"language":[{"iso":"eng"}],"volume":213,"_id":"62772","date_updated":"2025-12-03T12:53:27Z","article_number":"106840"},{"publisher":"DuEPublico2 Duisburg-Essen Publications online","date_created":"2021-08-16T06:58:56Z","publication":"7. IFToMM D-A-CH Konferenz 2021; 18. - 19. 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Mrz. 2021, IOP Publishing, 2021.","bibtex":"@inproceedings{Gräßler_Wiechel_Pottebaum_2021, title={Role model of model-based systems engineering application}, DOI={10.1088/1757-899X/1097/1/012003}, booktitle={Proceedings of 19th Drive Train Technology Conference (ATK 2021), 9. - 11. Mrz. 2021}, publisher={ IOP Publishing}, author={Gräßler, Iris and Wiechel, Dominik and Pottebaum, Jens}, year={2021} }","mla":"Gräßler, Iris, et al. “Role Model of Model-Based Systems Engineering Application.” Proceedings of 19th Drive Train Technology Conference (ATK 2021), 9. - 11. Mrz. 2021, IOP Publishing, 2021, doi:10.1088/1757-899X/1097/1/012003.","ieee":"I. Gräßler, D. Wiechel, and J. Pottebaum, “Role model of model-based systems engineering application,” 2021, doi: 10.1088/1757-899X/1097/1/012003.","chicago":"Gräßler, Iris, Dominik Wiechel, and Jens Pottebaum. “Role Model of Model-Based Systems Engineering Application.” In Proceedings of 19th Drive Train Technology Conference (ATK 2021), 9. - 11. Mrz. 2021. IOP Publishing, 2021. https://doi.org/10.1088/1757-899X/1097/1/012003.","ama":"Gräßler I, Wiechel D, Pottebaum J. Role model of model-based systems engineering application. In: Proceedings of 19th Drive Train Technology Conference (ATK 2021), 9. - 11. Mrz. 2021. IOP Publishing; 2021. doi:10.1088/1757-899X/1097/1/012003","apa":"Gräßler, I., Wiechel, D., & Pottebaum, J. (2021). Role model of model-based systems engineering application. Proceedings of 19th Drive Train Technology Conference (ATK 2021), 9. - 11. Mrz. 2021. https://doi.org/10.1088/1757-899X/1097/1/012003"},"user_id":"405","department":[{"_id":"152"}],"conference":{"start_date":"2021-03-09","end_date":"2021-03-11"},"title":"Role model of model-based systems engineering application","author":[{"first_name":"Iris","full_name":"Gräßler, Iris","id":"47565","last_name":"Gräßler","orcid":"0000-0001-5765-971X"},{"last_name":"Wiechel","id":"67161","first_name":"Dominik","full_name":"Wiechel, Dominik"},{"orcid":"http://orcid.org/0000-0001-8778-2989","last_name":"Pottebaum","id":"405","first_name":"Jens","full_name":"Pottebaum, Jens"}],"doi":"10.1088/1757-899X/1097/1/012003"},{"status":"public","language":[{"iso":"ger"}],"type":"conference","year":"2021","date_created":"2021-09-09T09:41:40Z","date_updated":"2026-04-29T09:54:25Z","volume":"DVM-Bericht 253","page":"231-240","_id":"24006","doi":"10.48447/BR-2021-025","project":[{"name":"TRR 285: TRR 285","_id":"130"},{"name":"TRR 285 – B04: TRR 285 - Subproject B04","_id":"143"},{"name":"TRR 285 - A: TRR 285 - Project Area A","_id":"131"},{"name":"TRR 285 – A02: TRR 285 - Subproject A02","_id":"136"},{"_id":"132","name":"TRR 285 - B: TRR 285 - Project Area B"},{"_id":"130","name":"TRR 285: Methodenentwicklung zur mechanischen Fügbarkeit in wandlungsfähigen Prozessketten"}],"author":[{"last_name":"Weiß","id":"45673","first_name":"Deborah","full_name":"Weiß, Deborah"},{"full_name":"Schramm, Britta","first_name":"Britta","last_name":"Schramm","id":"4668"},{"id":"32340","last_name":"Neuser","full_name":"Neuser, Moritz","first_name":"Moritz"},{"id":"43822","last_name":"Grydin","full_name":"Grydin, Olexandr","first_name":"Olexandr"},{"full_name":"Kullmer, Gunter","first_name":"Gunter","last_name":"Kullmer","id":"291"}],"title":"Experimentelle bruchmechanische Untersuchung eines clinchgeeigneten Bleches aus HCT590X mithilfe einer neuen Probengeometrie","conference":{"location":"Bremen","start_date":"2020-02-18","name":"Arbeitskreis: Bruchmechanische Werkstoff- und Bauteilbewertung: Beanspruchungsanalyse, Prüfmethoden und Anwendungen","end_date":"2020-02-19"},"department":[{"_id":"158"},{"_id":"143"},{"_id":"630"}],"user_id":"7850","citation":{"apa":"Weiß, D., Schramm, B., Neuser, M., Grydin, O., & Kullmer, G. (2021). Experimentelle bruchmechanische Untersuchung eines clinchgeeigneten Bleches aus HCT590X mithilfe einer neuen Probengeometrie. DVM-Bericht 253, 231–240. https://doi.org/10.48447/BR-2021-025","ama":"Weiß D, Schramm B, Neuser M, Grydin O, Kullmer G. Experimentelle bruchmechanische Untersuchung eines clinchgeeigneten Bleches aus HCT590X mithilfe einer neuen Probengeometrie. In: Vol DVM-Bericht 253. ; 2021:231-240. doi:10.48447/BR-2021-025","ieee":"D. Weiß, B. Schramm, M. Neuser, O. Grydin, and G. Kullmer, “Experimentelle bruchmechanische Untersuchung eines clinchgeeigneten Bleches aus HCT590X mithilfe einer neuen Probengeometrie,” Bremen, 2021, vol. DVM-Bericht 253, pp. 231–240, doi: 10.48447/BR-2021-025.","chicago":"Weiß, Deborah, Britta Schramm, Moritz Neuser, Olexandr Grydin, and Gunter Kullmer. “Experimentelle bruchmechanische Untersuchung eines clinchgeeigneten Bleches aus HCT590X mithilfe einer neuen Probengeometrie,” DVM-Bericht 253:231–40, 2021. https://doi.org/10.48447/BR-2021-025.","bibtex":"@inproceedings{Weiß_Schramm_Neuser_Grydin_Kullmer_2021, title={Experimentelle bruchmechanische Untersuchung eines clinchgeeigneten Bleches aus HCT590X mithilfe einer neuen Probengeometrie}, volume={DVM-Bericht 253}, DOI={10.48447/BR-2021-025}, author={Weiß, Deborah and Schramm, Britta and Neuser, Moritz and Grydin, Olexandr and Kullmer, Gunter}, year={2021}, pages={231–240} }","mla":"Weiß, Deborah, et al. Experimentelle bruchmechanische Untersuchung eines clinchgeeigneten Bleches aus HCT590X mithilfe einer neuen Probengeometrie. 2021, pp. 231–40, doi:10.48447/BR-2021-025.","short":"D. Weiß, B. Schramm, M. Neuser, O. Grydin, G. Kullmer, in: 2021, pp. 231–240."}},{"type":"dissertation","page":"202","volume":18,"title":"Untersuchung der mechanischen und geometrischen Eigenschaften von Bauteilen hergestellt im Fused Deposition Modeling Verfahren","abstract":[{"lang":"eng","text":"Im Rahmen dieser Arbeit wird das additive Fertigungsverfahren Fused Deposition Modeling (FDM) hinsichtlich der erzielbaren Bauteilqualität untersucht. Der Fokus liegt auf den mechanischen und geometrischen Eigenschaften für Bauteile aus ABS-M30. Hierzu erfolgt eine grundlegende Eruierung aller Einflussfaktoren auf die Bauteilqualität. Die Einflussfaktoren, die von besonderer Bedeutung sind, werden mithilfe von experimentellen Untersuchungen genauer analysiert. Ein wichtiges Merkmal im FDM-Prozess ist die Temperatur und die Luftströmung im Bauraum der Fertigungsmaschine, sodass neben der Ermittlung des Istzustandes auch eine Optimierung dieser erarbeitet wird. In den weiteren Hauptkapiteln wird neben dem Einfluss der Temperatur und Luftströmung auch der Einfluss der Strangablagestrategie untersucht. Die Strangablagestrategie kann zu einer gezielten Verbesserung der mechanischen Eigenschaften von FDM-Bauteilen genutzt werden. Die Einflüsse der Strangablagestrategie auf die geometrischen Bauteileigenschaften werden in Form von Maß- und Formabweichungen ermittelt. Ein weiteres Ziel dieser Arbeit ist die grundlegende Analyse über die Ursache von Maßabweichungen an FDM-Probekörpern. Zur Reduzierung der auftretenden Maßabweichungen, wird eine Methode erarbeitet, die zur Bestimmung von optimierten Schwindungsfaktoren dient. Die optimierten Schwindungsfaktoren werden genutzt, um die Maßabweichungen an FDM-Bauteilen maßgeblich zu reduzieren. "}],"user_id":"70729","main_file_link":[{"url":"https://www.shaker.de/de/content/catalogue/index.asp?lang=de&ID=8&ISBN=978-3-8440-7342-3&search=yes"}],"date_created":"2021-09-21T13:57:25Z","publisher":"Shaker Verlag","year":"2020","publication_identifier":{"isbn":["978-3-8440-7342-3"]},"language":[{"iso":"ger"}],"status":"public","_id":"24771","date_updated":"2022-01-06T06:56:34Z","author":[{"last_name":"Knoop","first_name":"Frederick","full_name":"Knoop, Frederick"}],"place":"Düren","supervisor":[{"last_name":"Schöppner","id":"20530","first_name":"Volker","full_name":"Schöppner, Volker"}],"intvolume":" 18","series_title":"Forschungsberichte des Direct Manufacturing Research Centers","citation":{"mla":"Knoop, Frederick. Untersuchung der mechanischen und geometrischen Eigenschaften von Bauteilen hergestellt im Fused Deposition Modeling Verfahren. Shaker Verlag, 2020.","bibtex":"@book{Knoop_2020, place={Düren}, series={Forschungsberichte des Direct Manufacturing Research Centers}, title={Untersuchung der mechanischen und geometrischen Eigenschaften von Bauteilen hergestellt im Fused Deposition Modeling Verfahren}, volume={18}, publisher={Shaker Verlag}, author={Knoop, Frederick}, year={2020}, collection={Forschungsberichte des Direct Manufacturing Research Centers} }","short":"F. Knoop, Untersuchung der mechanischen und geometrischen Eigenschaften von Bauteilen hergestellt im Fused Deposition Modeling Verfahren, Shaker Verlag, Düren, 2020.","apa":"Knoop, F. (2020). Untersuchung der mechanischen und geometrischen Eigenschaften von Bauteilen hergestellt im Fused Deposition Modeling Verfahren (Vol. 18). Shaker Verlag.","ama":"Knoop F. Untersuchung der mechanischen und geometrischen Eigenschaften von Bauteilen hergestellt im Fused Deposition Modeling Verfahren. Vol 18. Shaker Verlag; 2020.","chicago":"Knoop, Frederick. Untersuchung der mechanischen und geometrischen Eigenschaften von Bauteilen hergestellt im Fused Deposition Modeling Verfahren. Vol. 18. Forschungsberichte des Direct Manufacturing Research Centers. Düren: Shaker Verlag, 2020.","ieee":"F. Knoop, Untersuchung der mechanischen und geometrischen Eigenschaften von Bauteilen hergestellt im Fused Deposition Modeling Verfahren, vol. 18. Düren: Shaker Verlag, 2020."},"publication_status":"published","department":[{"_id":"219"},{"_id":"624"},{"_id":"367"},{"_id":"9"}]},{"status":"public","publication_identifier":{"isbn":["978-3-8440-7281-5"]},"year":"2020","language":[{"iso":"ger"}],"publisher":"Shaker Verlag","date_created":"2021-09-21T14:01:10Z","date_updated":"2022-01-06T06:56:34Z","_id":"24773","supervisor":[{"full_name":"Schöppner, Volker","first_name":"Volker","last_name":"Schöppner","id":"20530"}],"intvolume":" 17","place":"Düren","author":[{"first_name":"Matthias","full_name":"Fischer, Matthias","last_name":"Fischer"}],"department":[{"_id":"219"},{"_id":"624"},{"_id":"367"},{"_id":"9"}],"publication_status":"published","series_title":"Forschungsberichte des Direct Manufacturing Research Centers","citation":{"bibtex":"@book{Fischer_2020, place={Düren}, series={Forschungsberichte des Direct Manufacturing Research Centers}, title={Oberflächennachbehandlung beim Fused Deposition Modeling – Analyse der Oberflächenstruktur und mechanischer Kennwerte}, volume={17}, publisher={Shaker Verlag}, author={Fischer, Matthias}, year={2020}, collection={Forschungsberichte des Direct Manufacturing Research Centers} }","mla":"Fischer, Matthias. Oberflächennachbehandlung beim Fused Deposition Modeling – Analyse der Oberflächenstruktur und mechanischer Kennwerte. Shaker Verlag, 2020.","short":"M. Fischer, Oberflächennachbehandlung beim Fused Deposition Modeling – Analyse der Oberflächenstruktur und mechanischer Kennwerte, Shaker Verlag, Düren, 2020.","ama":"Fischer M. Oberflächennachbehandlung beim Fused Deposition Modeling – Analyse der Oberflächenstruktur und mechanischer Kennwerte. Vol 17. Shaker Verlag; 2020.","apa":"Fischer, M. (2020). Oberflächennachbehandlung beim Fused Deposition Modeling – Analyse der Oberflächenstruktur und mechanischer Kennwerte (Vol. 17). Shaker Verlag.","ieee":"M. Fischer, Oberflächennachbehandlung beim Fused Deposition Modeling – Analyse der Oberflächenstruktur und mechanischer Kennwerte, vol. 17. Düren: Shaker Verlag, 2020.","chicago":"Fischer, Matthias. Oberflächennachbehandlung beim Fused Deposition Modeling – Analyse der Oberflächenstruktur und mechanischer Kennwerte. Vol. 17. Forschungsberichte des Direct Manufacturing Research Centers. Düren: Shaker Verlag, 2020."},"type":"dissertation","volume":17,"page":"150","abstract":[{"text":"Mit seiner Eignung für den Einsatz in Luftfahrzeugen stellt vor allem der Werkstoff Ultem 9085 in Verbindung mit der Verarbeitbarkeit im Fused Deposition Modeling (FDM) Prozesses ein großes Potential für die Kleinserienfertigung mittels additiver Fertigungstechnologien im Luftfahrtbereich dar. Hier bestehen aufgrund der Schichtbauweise Herausforderungen zur Optimierung der Oberflächenqualität. Des Weiteren ist das Ermüdungsverhalten von FDM-Strukturen noch unzureichend erforscht.\r\nMit dem Schwerpunkt auf dem Werkstoff Ultem 9085 sind im Rahmen dieser Dissertation zunächst Nachbehandlungsmethoden zur Verbesserung der Oberflächenqualität analysiert worden. Hier konnten Oberflächenrauheiten durch den Einsatz eines chemischen Nachbehandlungsprozesses um bis zu 80 % reduziert werden. Die dabei als Nebeneffekt erzeugte Schließung der porösen Oberflächenstruktur begünstigte zudem einen anschließenden Metallisierungsprozess zur Veredelung der Oberflächenstruktur. Die Ermüdungseigenschaften fallen für FDM-Strukturen aufgrund der inneren und äußeren Kerben im Vergleich zu spritzgegossenen Substraten vergleichsweise gering aus. Durch Überfüllung der Bau-teile und gezielte Strangorientierungen kann die Lebensdauer insbesondere für seitlich und flach aufgebaute Zugprüfkörper erhöht werden. Der chemische Nachbehandlungsprozess wirkt sich durch die Reduzierung von äußeren Kerben vor allem positiv auf die mechanischen Eigenschaften von aufrecht hergestellten Strukturen aus.","lang":"eng"}],"title":"Oberflächennachbehandlung beim Fused Deposition Modeling – Analyse der Oberflächenstruktur und mechanischer Kennwerte","user_id":"70729","main_file_link":[{"url":"https://www.shaker.de/de/content/catalogue/index.asp?lang=de&ID=8&ISBN=978-3-8440-7281-5&search=yes"}]},{"title":"Additive Leichtbaustrukturen für die Flugzeugkabine","author":[{"last_name":"Menge","id":"29240","full_name":"Menge, Dennis","first_name":"Dennis"},{"full_name":"Klippstein, Sven Helge","first_name":"Sven Helge","id":"71545","last_name":"Klippstein"},{"id":"464","last_name":"Schmid","full_name":"Schmid, Hans-Joachim","first_name":"Hans-Joachim"}],"department":[{"_id":"150"},{"_id":"219"},{"_id":"624"}],"citation":{"ieee":"D. Menge, S. H. Klippstein, and H.-J. Schmid, Additive Leichtbaustrukturen für die Flugzeugkabine. 2020.","chicago":"Menge, Dennis, Sven Helge Klippstein, and Hans-Joachim Schmid. Additive Leichtbaustrukturen für die Flugzeugkabine, 2020.","apa":"Menge, D., Klippstein, S. H., & Schmid, H.-J. (2020). Additive Leichtbaustrukturen für die Flugzeugkabine.","ama":"Menge D, Klippstein SH, Schmid H-J. Additive Leichtbaustrukturen für die Flugzeugkabine.; 2020.","short":"D. Menge, S.H. Klippstein, H.-J. Schmid, Additive Leichtbaustrukturen für die Flugzeugkabine, 2020.","bibtex":"@book{Menge_Klippstein_Schmid_2020, title={Additive Leichtbaustrukturen für die Flugzeugkabine}, author={Menge, Dennis and Klippstein, Sven Helge and Schmid, Hans-Joachim}, year={2020} }","mla":"Menge, Dennis, et al. Additive Leichtbaustrukturen für die Flugzeugkabine. 2020."},"main_file_link":[{"url":"https://www.tib.eu/de/suchen/id/TIBKAT:172529849X/ "}],"user_id":"29240","language":[{"iso":"ger"}],"type":"report","year":"2020","status":"public","date_created":"2021-09-23T12:37:00Z","date_updated":"2022-01-06T06:56:41Z","report_number":"20K1513D, 01168731","page":"130","_id":"24943"},{"user_id":"71302","series_title":"10. ProcessNet-Jahrestagung und 34. DECHEMA-Jahrestagung der Biotechnologen ","citation":{"chicago":"Wende, Marc, Kai Philippi, and Eugeny Kenig. “Numerische Simulation von Gravidestillationsapparaten Zur Trennung Eines Binären Ethanol/Wasser-Gemisches.” In 10. ProcessNet-Jahrestagung Und 34. DECHEMA-Jahrestagung Der Biotechnologen . 10. ProcessNet-Jahrestagung Und 34. DECHEMA-Jahrestagung Der Biotechnologen , 2020.","ieee":"M. Wende, K. Philippi, and E. Kenig, “Numerische Simulation von Gravidestillationsapparaten zur Trennung eines binären Ethanol/Wasser-Gemisches,” presented at the 10. ProcessNet-Jahrestagung und 34. DECHEMA-Jahrestagung der Biotechnologen 2020, Aachen, 2020.","ama":"Wende M, Philippi K, Kenig E. Numerische Simulation von Gravidestillationsapparaten zur Trennung eines binären Ethanol/Wasser-Gemisches. In: 10. ProcessNet-Jahrestagung Und 34. DECHEMA-Jahrestagung Der Biotechnologen . 10. ProcessNet-Jahrestagung und 34. DECHEMA-Jahrestagung der Biotechnologen . ; 2020.","apa":"Wende, M., Philippi, K., & Kenig, E. (2020). Numerische Simulation von Gravidestillationsapparaten zur Trennung eines binären Ethanol/Wasser-Gemisches. 10. ProcessNet-Jahrestagung Und 34. DECHEMA-Jahrestagung Der Biotechnologen . 10. ProcessNet-Jahrestagung und 34. DECHEMA-Jahrestagung der Biotechnologen 2020, Aachen.","short":"M. Wende, K. Philippi, E. Kenig, in: 10. ProcessNet-Jahrestagung Und 34. DECHEMA-Jahrestagung Der Biotechnologen , 2020.","mla":"Wende, Marc, et al. “Numerische Simulation von Gravidestillationsapparaten Zur Trennung Eines Binären Ethanol/Wasser-Gemisches.” 10. ProcessNet-Jahrestagung Und 34. DECHEMA-Jahrestagung Der Biotechnologen , 2020.","bibtex":"@inproceedings{Wende_Philippi_Kenig_2020, series={10. ProcessNet-Jahrestagung und 34. DECHEMA-Jahrestagung der Biotechnologen }, title={Numerische Simulation von Gravidestillationsapparaten zur Trennung eines binären Ethanol/Wasser-Gemisches}, booktitle={10. ProcessNet-Jahrestagung und 34. DECHEMA-Jahrestagung der Biotechnologen }, author={Wende, Marc and Philippi, Kai and Kenig, Eugeny}, year={2020}, collection={10. ProcessNet-Jahrestagung und 34. DECHEMA-Jahrestagung der Biotechnologen } }"},"department":[{"_id":"9"},{"_id":"145"}],"author":[{"id":"71302","last_name":"Wende","first_name":"Marc","full_name":"Wende, Marc"},{"last_name":"Philippi","first_name":"Kai","full_name":"Philippi, Kai"},{"id":"665","last_name":"Kenig","full_name":"Kenig, Eugeny","first_name":"Eugeny"}],"conference":{"end_date":"24.09.2020","start_date":"21.09.2020","location":"Aachen","name":"10. ProcessNet-Jahrestagung und 34. DECHEMA-Jahrestagung der Biotechnologen 2020"},"title":"Numerische Simulation von Gravidestillationsapparaten zur Trennung eines binären Ethanol/Wasser-Gemisches","_id":"19738","date_updated":"2022-01-06T06:54:11Z","publication":"10. ProcessNet-Jahrestagung und 34. DECHEMA-Jahrestagung der Biotechnologen ","date_created":"2020-09-28T14:09:47Z","status":"public","type":"conference","year":"2020","language":[{"iso":"eng"}]},{"date_created":"2020-09-28T14:38:12Z","language":[{"iso":"ger"}],"type":"dissertation","publication_identifier":{"isbn":["978-3-8440-7530-4"]},"year":"2020","status":"public","_id":"19743","date_updated":"2022-01-06T06:54:12Z","title":"Methodenentwicklung zum Entfügen von Stahl-Klebverbindungen bei tiefen Temperaturen","author":[{"first_name":"Jan","full_name":"Ditter, Jan","id":"22488","last_name":"Ditter"}],"supervisor":[{"last_name":"Meschut","full_name":"Meschut, Gerson","first_name":"Gerson"}],"citation":{"chicago":"Ditter, Jan. Methodenentwicklung zum Entfügen von Stahl-Klebverbindungen bei tiefen Temperaturen, 2020.","ieee":"J. Ditter, Methodenentwicklung zum Entfügen von Stahl-Klebverbindungen bei tiefen Temperaturen. 2020.","ama":"Ditter J. Methodenentwicklung zum Entfügen von Stahl-Klebverbindungen bei tiefen Temperaturen.; 2020.","apa":"Ditter, J. (2020). Methodenentwicklung zum Entfügen von Stahl-Klebverbindungen bei tiefen Temperaturen.","short":"J. Ditter, Methodenentwicklung zum Entfügen von Stahl-Klebverbindungen bei tiefen Temperaturen, 2020.","mla":"Ditter, Jan. Methodenentwicklung zum Entfügen von Stahl-Klebverbindungen bei tiefen Temperaturen. 2020.","bibtex":"@book{Ditter_2020, title={Methodenentwicklung zum Entfügen von Stahl-Klebverbindungen bei tiefen Temperaturen}, author={Ditter, Jan}, year={2020} }"},"publication_status":"published","user_id":"22488","department":[{"_id":"157"}]},{"author":[{"full_name":"Ditter, Jan","first_name":"Jan","last_name":"Ditter","id":"22488"},{"last_name":"Aubel","first_name":"Tobias","full_name":"Aubel, Tobias"},{"orcid":"0000-0002-2763-1246","last_name":"Meschut","id":"32056","full_name":"Meschut, Gerson","first_name":"Gerson"}],"title":"Simple Determination of Fast Curing Parameters for Bonded Structures","user_id":"22488","citation":{"apa":"Ditter, J., Aubel, T., & Meschut, G. (2020). Simple Determination of Fast Curing Parameters for Bonded Structures. Adhesion ADHESIVES + SEALANTS, (1).","ama":"Ditter J, Aubel T, Meschut G. Simple Determination of Fast Curing Parameters for Bonded Structures. adhesion ADHESIVES + SEALANTS. 2020;(1).","chicago":"Ditter, Jan, Tobias Aubel, and Gerson Meschut. “Simple Determination of Fast Curing Parameters for Bonded Structures.” Adhesion ADHESIVES + SEALANTS, no. 1 (2020).","ieee":"J. Ditter, T. Aubel, and G. Meschut, “Simple Determination of Fast Curing Parameters for Bonded Structures,” adhesion ADHESIVES + SEALANTS, no. 1, 2020.","mla":"Ditter, Jan, et al. “Simple Determination of Fast Curing Parameters for Bonded Structures.” Adhesion ADHESIVES + SEALANTS, no. 1, 2020.","bibtex":"@article{Ditter_Aubel_Meschut_2020, title={Simple Determination of Fast Curing Parameters for Bonded Structures}, number={1}, journal={adhesion ADHESIVES + SEALANTS}, author={Ditter, Jan and Aubel, Tobias and Meschut, Gerson}, year={2020} }","short":"J. Ditter, T. Aubel, G. Meschut, Adhesion ADHESIVES + SEALANTS (2020)."},"department":[{"_id":"157"}],"publication":"adhesion ADHESIVES + SEALANTS","date_created":"2020-09-29T07:03:09Z","status":"public","type":"journal_article","year":"2020","language":[{"iso":"eng"}],"_id":"19753","date_updated":"2022-01-06T06:54:12Z","issue":"1"},{"status":"public","publication_identifier":{"isbn":["978-3-86776-582-4"]},"year":"2020","language":[{"iso":"ger"}],"publisher":"Europäische Forschungsgesellschaft für Blechverarbeitung e.V.","date_created":"2020-10-21T06:41:26Z","date_updated":"2022-01-06T06:54:20Z","report_number":"527","_id":"20145","file_date_updated":"2021-02-03T12:14:18Z","author":[{"last_name":"Otroshi","id":"71269","full_name":"Otroshi, Mortaza","first_name":"Mortaza","orcid":"0000-0002-8652-9209"},{"orcid":"0000-0002-2763-1246","first_name":"Gerson","full_name":"Meschut, Gerson","id":"32056","last_name":"Meschut"}],"department":[{"_id":"157"}],"publication_status":"published","citation":{"ama":"Otroshi M, Meschut G. Methodenentwicklung zur Schädigungsmodellierung für die numerische Prozesssimulation mechanischer Fügeverfahren. Europäische Forschungsgesellschaft für Blechverarbeitung e.V.; 2020.","apa":"Otroshi, M., & Meschut, G. (2020). Methodenentwicklung zur Schädigungsmodellierung für die numerische Prozesssimulation mechanischer Fügeverfahren. Europäische Forschungsgesellschaft für Blechverarbeitung e.V.","chicago":"Otroshi, Mortaza, and Gerson Meschut. Methodenentwicklung zur Schädigungsmodellierung für die numerische Prozesssimulation mechanischer Fügeverfahren. Europäische Forschungsgesellschaft für Blechverarbeitung e.V., 2020.","ieee":"M. Otroshi and G. Meschut, Methodenentwicklung zur Schädigungsmodellierung für die numerische Prozesssimulation mechanischer Fügeverfahren. Europäische Forschungsgesellschaft für Blechverarbeitung e.V., 2020.","mla":"Otroshi, Mortaza, and Gerson Meschut. Methodenentwicklung zur Schädigungsmodellierung für die numerische Prozesssimulation mechanischer Fügeverfahren. Europäische Forschungsgesellschaft für Blechverarbeitung e.V., 2020.","bibtex":"@book{Otroshi_Meschut_2020, title={Methodenentwicklung zur Schädigungsmodellierung für die numerische Prozesssimulation mechanischer Fügeverfahren}, publisher={Europäische Forschungsgesellschaft für Blechverarbeitung e.V.}, author={Otroshi, Mortaza and Meschut, Gerson}, year={2020} }","short":"M. Otroshi, G. Meschut, Methodenentwicklung zur Schädigungsmodellierung für die numerische Prozesssimulation mechanischer Fügeverfahren, Europäische Forschungsgesellschaft für Blechverarbeitung e.V., 2020."},"type":"report","ddc":["620"],"page":"182","has_accepted_license":"1","abstract":[{"text":"Der Karosseriebau ist zunehmend durch die Verwendung unterschiedlicher Werkstoffe in Mischbauweise gekennzeichnet, was zu einem Einsatz von mechanischen Fügeverfahren geführt hat. Hieraus resultieren die Zielsetzungen, die mechanischen Fügeverfahren in ihrer Effizienz und ihren Einsatzbereichen zu erweitern, sowie die Anzahl der Experimente zu reduzieren und Entwicklungszyklen zu verkürzen. Dies erfolgt mit Unterstützung der numerischen Simulation. Neben der Beschreibung des plastischen Verhaltens gilt es auch, das Schädigungsverhalten abzubilden.\r\n\r\nDer Fügeprozess bzw. die Fügerichtung erfolgt senkrecht zur Blechoberfläche und führt somit zu einem dreidimensionalen Zustand der Fügelemente. Hieraus leitet sich die Herausforderung ab, das Werkstoffversagen in Abhängigkeit der Beanspruchungssituation zu beschreiben. Ein einfacher Ansatz zur Abbildung des Durchdringens ist ein geometrisches Trennkriterium.\r\n\r\nEin solches Kriterium basiert i.d.R. auf einem experimentell beobachteten Verhalten und ist somit nicht prognosefähig für Variationen bzgl. Werkzeugkonfigurationen, Blechdicken- und Werkstoffgüten-Kombinationen. In diesem Projekt wird das Schädigungsmodell GISSMO (Generalized Incremental Stress State dependent damage Model) verwendet, um die Entwicklung der duktilen Schädigung zu beschreiben und den Bruchbeginn während des Stanzniet- und Schneidclinchens vorherzusagen.\r\n\r\nDer Spannungszustand während der Prozesssimulation wird untersucht und die verschiedenen Schädigungsproben werden experimentell erprobt, um die Versagenskurven zu charakterisieren. Die Versagenskurven werden im Schädigungsmodell GISSMO definiert. Um die Genauigkeit des Modells zu gewährleisten, wird die Verifizierung des Modells durch die Simulation von Schädigungsproben mit dem Schädigungsmodell durchgeführt.\r\n\r\nZur Validierung des Modells wird die Simulation des Fügeprozesses mit dem Schädigungsmodell durchgeführt und die Ergebnisse von Simulation und Experiment verglichen. Darüber hinaus werden Sensitivitätsanalysen durchgeführt, um die Einflüsse der Fertigungsprozesse, der Lackierung und des Diskretisierungsgrades auf das Schädigungsverhalten des Materials zu identifizieren.\r\nDas IGF-Vorhaben „Methodenentwicklung zur Schädigungsmodellierung für die numerische Prozesssimulation mechanischer Fügeverfahren\" der Forschungsvereinigung EFB e.V. wurde unter der Fördernummer AiF 19452N über die Arbeitsgemeinschaft industrieller Forschungsvereinigungen (AiF) im Rahmen des Programms zur Förderung der Industriellen Gemeinschaftsforschung (IGF) vom Bundesministerium für Wirtschaft und Energie aufgrund eines Beschlusses des Deutschen Bundestages gefördert. Der Abschlussbericht ist als EFB-Forschungsbericht Nr. 527 erschienen und bei der EFB-Geschäftsstelle und im Buchhandel erhältlich.","lang":"ger"},{"text":"The body construction is increasingly characterized by the use of different materials in multi-material-design, which has led to the application of a variety of mechanical joining processes. To enhance the mechanical joining processes in their efficiency, numerical simulation can be used as an effective tool to reduce the number of experiments and shorten the product development cycles. In addition to the description of the plasticity, the damage and the failure behavior of material must also be taken into account.\r\n\r\nIn self-pierce riveting simulations, the rivet penetrates perpendicular into the sheet surface and produces a three-dimensional stress state. Hence, it is essential to describe the material failure as a function of a three-dimensional stress state.\r\n\r\nA simple approach to describe the separation of upper sheet in the simulation of the joining process is based on a geometric separation criterion. Such a criterion is not predictive und cannot be used in case of variations in tool configurations, sheet thickness, and material combinations.\r\n\r\nIn this project, the damage model GISSMO (Generalized Incremental Stress State dependent damage Model) is used to describe the evolution of ductile damage and predict the onset of fracture during the self-piercing riveting and shear-clinching.\r\n\r\nThe stress state during the process simulation is studied and the variety of damage specimens are experimental examined to characterize the failure curves. The failure curves are defined in the GISSMO damage model. To ensure the accuracy of the model, the verification of the model using simulation of damage specimens with damage model is performed.\r\n\r\nFor the validation of model, the simulation of the joining process using the damage model is carried out and the results of simulation and experiment are compared. Furthermore, sensitivity analyses are performed to identify the influences of manufacturing processes, the evaluation method, and the degree of discretization on the damage behavior of material.","lang":"eng"}],"file":[{"date_updated":"2021-02-03T12:14:18Z","relation":"main_file","success":1,"file_name":"Schädigunsmodellierung__efb527.jpg","file_size":12718,"creator":"motroshi","date_created":"2021-02-03T12:14:18Z","content_type":"image/jpeg","access_level":"closed","file_id":"21151"}],"title":"Methodenentwicklung zur Schädigungsmodellierung für die numerische Prozesssimulation mechanischer Fügeverfahren","user_id":"71269","main_file_link":[{"url":"https://ble-x.de/mydocs/1606"}]},{"abstract":[{"lang":"eng","text":"Joining technology is regarded as a key technology for reducing energy consumption and CO2 imitation as well as the use of innovative materials and development of new, resource-saving products. Punch riveting is a widely used and established joining process in many sectors. The white and brown goods, electrical engineering, construction and, in particular, the automotive industry are some of the sectors mentioned here.\r\n\r\nSince the design and assessment of punch rivet components with regard to structural durability can only be carried out experimentally using prototypes due to a lack of experience and calculation concepts, the improvement of this uneconomical and time-consuming procedure is the goal of this contribution.\r\n\r\nTherefore, a numerical simulation and design method for cyclically loads punched riveted joints shall be introduced. This concept shall be based on the notch strain concept.\r\n\r\nThe following steps are necessary to achieve the goal shown above:\r\n\r\n Tensile tests on all materials involved in the joint for determination of tensile strength and quasi-static stress-strain curves\r\n Estimation of the cyclic material properties from the tensile strength in order to obtain the strain-life curve and the cyclic stress-strain curve\r\n Estimation of mean stress sensitivity from the tensile strength to conduct an amplitude transformation for variable amplitude loadings.\r\n Execution of a 2D forming simulation of the joining process to determine the geometry and the stresses and degrees of deformation present in the connection\r\n Transferring the results of the forming simulation into a static-mechanical load simulation for determining the relation between the external load and the elastic-plastic strain at the critical point\r\n Estimation of the service life by means of the damage parameter Wöhler curves calculated from the strain-life curve\r\n\r\nIn order to verify the simulation and calculation method, service life investigations have been carried out on punched riveted components under constant and variable amplitude load.\r\n\r\nThe test results, as well as the workflow through the fatigue assessment and its accuracy in estimation the fatigue life will be shown in this contribution."}],"conference":{"name":"Fourth International Conference on Material and Component Performance under Variable Amplitude Loading","start_date":"2020-03-30","location":"Darmstadt, Germany","end_date":"2020-04-01"},"title":"Linear damage accumulation of self-pierce riveted joints","author":[{"full_name":"Masendorf, Lukas","first_name":"Lukas","last_name":"Masendorf"},{"full_name":"Wächter, Michael","first_name":"Michael","last_name":"Wächter"},{"first_name":"Stephan","full_name":"Horstmann, Stephan","last_name":"Horstmann"},{"orcid":"0000-0002-8652-9209","first_name":"Mortaza","full_name":"Otroshi, Mortaza","last_name":"Otroshi","id":"71269"},{"first_name":"Alfons","full_name":"Esderts, Alfons","last_name":"Esderts"},{"first_name":"Gerson","full_name":"Meschut, Gerson","last_name":"Meschut","id":"32056","orcid":"0000-0002-2763-1246"}],"department":[{"_id":"157"}],"citation":{"ama":"Masendorf L, Wächter M, Horstmann S, Otroshi M, Esderts A, Meschut G. Linear damage accumulation of self-pierce riveted joints. In: Deutscher Verband für Materialforschung und -prüfung e.V.; 2020.","apa":"Masendorf, L., Wächter, M., Horstmann, S., Otroshi, M., Esderts, A., & Meschut, G. (2020). Linear damage accumulation of self-pierce riveted joints. Presented at the Fourth International Conference on Material and Component Performance under Variable Amplitude Loading, Darmstadt, Germany: Deutscher Verband für Materialforschung und -prüfung e.V.","chicago":"Masendorf, Lukas, Michael Wächter, Stephan Horstmann, Mortaza Otroshi, Alfons Esderts, and Gerson Meschut. “Linear Damage Accumulation of Self-Pierce Riveted Joints.” Deutscher Verband für Materialforschung und -prüfung e.V., 2020.","ieee":"L. Masendorf, M. Wächter, S. Horstmann, M. Otroshi, A. Esderts, and G. Meschut, “Linear damage accumulation of self-pierce riveted joints,” presented at the Fourth International Conference on Material and Component Performance under Variable Amplitude Loading, Darmstadt, Germany, 2020.","mla":"Masendorf, Lukas, et al. Linear Damage Accumulation of Self-Pierce Riveted Joints. Deutscher Verband für Materialforschung und -prüfung e.V., 2020.","bibtex":"@inproceedings{Masendorf_Wächter_Horstmann_Otroshi_Esderts_Meschut_2020, title={Linear damage accumulation of self-pierce riveted joints}, publisher={Deutscher Verband für Materialforschung und -prüfung e.V.}, author={Masendorf, Lukas and Wächter, Michael and Horstmann, Stephan and Otroshi, Mortaza and Esderts, Alfons and Meschut, Gerson}, year={2020} }","short":"L. Masendorf, M. Wächter, S. Horstmann, M. Otroshi, A. Esderts, G. Meschut, in: Deutscher Verband für Materialforschung und -prüfung e.V., 2020."},"user_id":"71269","keyword":["punch rivet","notch strain conept","structural durability"],"publication_status":"published","year":"2020","type":"conference","publication_identifier":{"isbn":["978-3-9820591-0-5"]},"language":[{"iso":"eng"}],"status":"public","date_created":"2020-10-21T06:55:12Z","publisher":"Deutscher Verband für Materialforschung und -prüfung e.V.","date_updated":"2022-01-06T06:54:20Z","_id":"20146"},{"publication":"Umformtechnik Blech Rohre Profile","ddc":["620"],"type":"journal_article","page":"48-50","issue":"7/20","file":[{"file_size":1162090,"file_name":"Umformtechnik_BRP_7_2020.pdf","creator":"motroshi","date_created":"2021-01-12T11:53:09Z","content_type":"application/pdf","access_level":"open_access","file_id":"20898","relation":"main_file","date_updated":"2021-01-12T12:10:57Z"}],"title":"Spannungszustandsabhängige Schädigungsmodellierung zum Halbhohlstanznieten","has_accepted_license":"1","user_id":"68518","oa":"1","main_file_link":[{"url":"https://umformtechnik.net/blech/Inhalte/Aus-der-Forschung/Spannungszustandsabhaengige-Schaedigungsmodellierung-zum-Halbhohlstanznieten","open_access":"1"}],"date_created":"2020-10-22T07:31:23Z","status":"public","year":"2020","publication_identifier":{"issn":["0300-3167"]},"language":[{"iso":"ger"}],"_id":"20170","file_date_updated":"2021-01-12T12:10:57Z","date_updated":"2022-01-06T06:54:21Z","author":[{"id":"71269","last_name":"Otroshi","first_name":"Mortaza","full_name":"Otroshi, Mortaza","orcid":"0000-0002-8652-9209"},{"last_name":"Meschut","id":"32056","first_name":"Gerson","full_name":"Meschut, Gerson","orcid":"0000-0002-2763-1246"}],"publication_status":"published","citation":{"mla":"Otroshi, Mortaza, and Gerson Meschut. “Spannungszustandsabhängige Schädigungsmodellierung zum Halbhohlstanznieten.” Umformtechnik Blech Rohre Profile, no. 7/20, 2020, pp. 48–50.","bibtex":"@article{Otroshi_Meschut_2020, title={Spannungszustandsabhängige Schädigungsmodellierung zum Halbhohlstanznieten}, number={7/20}, journal={Umformtechnik Blech Rohre Profile}, author={Otroshi, Mortaza and Meschut, Gerson}, year={2020}, pages={48–50} }","short":"M. Otroshi, G. Meschut, Umformtechnik Blech Rohre Profile (2020) 48–50.","ama":"Otroshi M, Meschut G. Spannungszustandsabhängige Schädigungsmodellierung zum Halbhohlstanznieten. Umformtechnik Blech Rohre Profile. 2020;(7/20):48-50.","apa":"Otroshi, M., & Meschut, G. (2020). Spannungszustandsabhängige Schädigungsmodellierung zum Halbhohlstanznieten. Umformtechnik Blech Rohre Profile, (7/20), 48–50.","chicago":"Otroshi, Mortaza, and Gerson Meschut. “Spannungszustandsabhängige Schädigungsmodellierung zum Halbhohlstanznieten.” Umformtechnik Blech Rohre Profile, no. 7/20 (2020): 48–50.","ieee":"M. Otroshi and G. Meschut, “Spannungszustandsabhängige Schädigungsmodellierung zum Halbhohlstanznieten,” Umformtechnik Blech Rohre Profile, no. 7/20, pp. 48–50, 2020."},"department":[{"_id":"157"}]},{"citation":{"ieee":"P. Heyser, V. Sartisson, G. Meschut, M. Droß, and K. Dröder, “Increased load bearing capacity of mechanically joined FRP/metal joints using a pin structured auxiliary joining element,” Materials Testing, pp. 55–60, 2020.","chicago":"Heyser, Per, Vadim Sartisson, Gerson Meschut, Marcel Droß, and Klaus Dröder. “Increased Load Bearing Capacity of Mechanically Joined FRP/Metal Joints Using a Pin Structured Auxiliary Joining Element.” Materials Testing, 2020, 55–60. https://doi.org/10.3139/120.111453.","ama":"Heyser P, Sartisson V, Meschut G, Droß M, Dröder K. Increased load bearing capacity of mechanically joined FRP/metal joints using a pin structured auxiliary joining element. Materials Testing. 2020:55-60. doi:10.3139/120.111453","apa":"Heyser, P., Sartisson, V., Meschut, G., Droß, M., & Dröder, K. (2020). Increased load bearing capacity of mechanically joined FRP/metal joints using a pin structured auxiliary joining element. Materials Testing, 55–60. https://doi.org/10.3139/120.111453","short":"P. Heyser, V. Sartisson, G. Meschut, M. Droß, K. Dröder, Materials Testing (2020) 55–60.","bibtex":"@article{Heyser_Sartisson_Meschut_Droß_Dröder_2020, title={Increased load bearing capacity of mechanically joined FRP/metal joints using a pin structured auxiliary joining element}, DOI={10.3139/120.111453}, journal={Materials Testing}, author={Heyser, Per and Sartisson, Vadim and Meschut, Gerson and Droß, Marcel and Dröder, Klaus}, year={2020}, pages={55–60} }","mla":"Heyser, Per, et al. “Increased Load Bearing Capacity of Mechanically Joined FRP/Metal Joints Using a Pin Structured Auxiliary Joining Element.” Materials Testing, 2020, pp. 55–60, doi:10.3139/120.111453."},"user_id":"40450","publication_status":"published","department":[{"_id":"157"}],"title":"Increased load bearing capacity of mechanically joined FRP/metal joints using a pin structured auxiliary joining element","author":[{"last_name":"Heyser","id":"40450","full_name":"Heyser, Per","first_name":"Per"},{"full_name":"Sartisson, Vadim","first_name":"Vadim","last_name":"Sartisson"},{"orcid":"0000-0002-2763-1246","id":"32056","last_name":"Meschut","full_name":"Meschut, Gerson","first_name":"Gerson"},{"full_name":"Droß, Marcel","first_name":"Marcel","last_name":"Droß"},{"first_name":"Klaus","full_name":"Dröder, Klaus","last_name":"Dröder"}],"doi":"10.3139/120.111453","page":"55-60","_id":"20235","date_updated":"2022-01-06T06:54:24Z","publication":"Materials Testing","quality_controlled":"1","date_created":"2020-10-30T14:30:10Z","type":"journal_article","year":"2020","publication_identifier":{"issn":["0025-5300","2195-8572"]},"language":[{"iso":"eng"}],"status":"public"},{"_id":"20269","page":"617-624","volume":25,"date_updated":"2022-01-06T06:54:25Z","issue":"7","publication":"Science and Technology of Welding and Joining","date_created":"2020-11-03T13:28:23Z","publisher":"Taylor & Francis","type":"journal_article","year":"2020","language":[{"iso":"eng"}],"status":"public","citation":{"mla":"Böhne, Christoph, et al. “Avoidance of Liquid Metal Embrittlement during Resistance Spot Welding by Heat Input Dependent Hold Time Adaption.” Science and Technology of Welding and Joining, vol. 25, no. 7, Taylor & Francis, 2020, pp. 617–24, doi:10.1080/13621718.2019.1693731.","bibtex":"@article{Böhne_Meschut_Biegler_Rethmeier_2020, title={Avoidance of liquid metal embrittlement during resistance spot welding by heat input dependent hold time adaption}, volume={25}, DOI={10.1080/13621718.2019.1693731}, number={7}, journal={Science and Technology of Welding and Joining}, publisher={Taylor & Francis}, author={Böhne, Christoph and Meschut, Gerson and Biegler, Max and Rethmeier, Michael}, year={2020}, pages={617–624} }","short":"C. Böhne, G. Meschut, M. Biegler, M. Rethmeier, Science and Technology of Welding and Joining 25 (2020) 617–624.","ama":"Böhne C, Meschut G, Biegler M, Rethmeier M. Avoidance of liquid metal embrittlement during resistance spot welding by heat input dependent hold time adaption. Science and Technology of Welding and Joining. 2020;25(7):617-624. doi:10.1080/13621718.2019.1693731","apa":"Böhne, C., Meschut, G., Biegler, M., & Rethmeier, M. (2020). Avoidance of liquid metal embrittlement during resistance spot welding by heat input dependent hold time adaption. Science and Technology of Welding and Joining, 25(7), 617–624. https://doi.org/10.1080/13621718.2019.1693731","chicago":"Böhne, Christoph, Gerson Meschut, Max Biegler, and Michael Rethmeier. “Avoidance of Liquid Metal Embrittlement during Resistance Spot Welding by Heat Input Dependent Hold Time Adaption.” Science and Technology of Welding and Joining 25, no. 7 (2020): 617–24. https://doi.org/10.1080/13621718.2019.1693731.","ieee":"C. Böhne, G. Meschut, M. Biegler, and M. Rethmeier, “Avoidance of liquid metal embrittlement during resistance spot welding by heat input dependent hold time adaption,” Science and Technology of Welding and Joining, vol. 25, no. 7, pp. 617–624, 2020."},"user_id":"22483","department":[{"_id":"157"}],"title":"Avoidance of liquid metal embrittlement during resistance spot welding by heat input dependent hold time adaption","author":[{"first_name":"Christoph","full_name":"Böhne, Christoph","id":"22483","last_name":"Böhne"},{"orcid":"0000-0002-2763-1246","full_name":"Meschut, Gerson","first_name":"Gerson","last_name":"Meschut","id":"32056"},{"first_name":"Max","full_name":"Biegler, Max","last_name":"Biegler"},{"last_name":"Rethmeier","first_name":"Michael","full_name":"Rethmeier, Michael"}],"doi":"10.1080/13621718.2019.1693731","intvolume":" 25"},{"date_created":"2020-11-03T13:59:29Z","publication":"Joining in Car Body Engineering","language":[{"iso":"eng"}],"year":"2020","type":"conference","status":"public","_id":"20273","date_updated":"2022-01-06T06:54:25Z","title":"Resistance spot welding simulation can determine the critical stress- and strain-conditions leading to liquid metal embrittlement formation","author":[{"last_name":"Biegler","full_name":"Biegler, Max","first_name":"Max"},{"first_name":"Michael","full_name":"Rethmeier, Michael","last_name":"Rethmeier"},{"last_name":"Böhne","id":"22483","first_name":"Christoph","full_name":"Böhne, Christoph"},{"full_name":"Meschut, Gerson","first_name":"Gerson","id":"32056","last_name":"Meschut","orcid":"0000-0002-2763-1246"}],"place":"Bad Nauheim","citation":{"chicago":"Biegler, Max, Michael Rethmeier, Christoph Böhne, and Gerson Meschut. “Resistance Spot Welding Simulation Can Determine the Critical Stress- and Strain-Conditions Leading to Liquid Metal Embrittlement Formation.” In Joining in Car Body Engineering. Bad Nauheim, 2020.","ieee":"M. Biegler, M. Rethmeier, C. Böhne, and G. Meschut, “Resistance spot welding simulation can determine the critical stress- and strain-conditions leading to liquid metal embrittlement formation,” in Joining in Car Body Engineering, 2020.","apa":"Biegler, M., Rethmeier, M., Böhne, C., & Meschut, G. (2020). Resistance spot welding simulation can determine the critical stress- and strain-conditions leading to liquid metal embrittlement formation. In Joining in Car Body Engineering. Bad Nauheim.","ama":"Biegler M, Rethmeier M, Böhne C, Meschut G. Resistance spot welding simulation can determine the critical stress- and strain-conditions leading to liquid metal embrittlement formation. In: Joining in Car Body Engineering. Bad Nauheim; 2020.","short":"M. Biegler, M. Rethmeier, C. Böhne, G. Meschut, in: Joining in Car Body Engineering, Bad Nauheim, 2020.","mla":"Biegler, Max, et al. “Resistance Spot Welding Simulation Can Determine the Critical Stress- and Strain-Conditions Leading to Liquid Metal Embrittlement Formation.” Joining in Car Body Engineering, 2020.","bibtex":"@inproceedings{Biegler_Rethmeier_Böhne_Meschut_2020, place={Bad Nauheim}, title={Resistance spot welding simulation can determine the critical stress- and strain-conditions leading to liquid metal embrittlement formation}, booktitle={Joining in Car Body Engineering}, author={Biegler, Max and Rethmeier, Michael and Böhne, Christoph and Meschut, Gerson}, year={2020} }"},"user_id":"22483","department":[{"_id":"157"}]},{"author":[{"last_name":"Schraeder","full_name":"Schraeder, Dirk Theodor","first_name":"Dirk Theodor"},{"id":"72888","last_name":"Schafran","full_name":"Schafran, Tommy","first_name":"Tommy"},{"first_name":"Bärbel","full_name":"Geisen, Bärbel","last_name":"Geisen"},{"full_name":"Rubbert, Lisa","first_name":"Lisa","last_name":"Rubbert"}],"title":"Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom","department":[{"_id":"143"}],"user_id":"45673","citation":{"ama":"Schraeder DT, Schafran T, Geisen B, Rubbert L. Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom. Orthopädie Technik. 2020;71 (9):32-37.","apa":"Schraeder, D. T., Schafran, T., Geisen, B., & Rubbert, L. (2020). Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom. Orthopädie Technik, 71 (9), 32–37.","ieee":"D. T. Schraeder, T. Schafran, B. Geisen, and L. Rubbert, “Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom,” Orthopädie Technik, vol. 71 (9), pp. 32–37, 2020.","chicago":"Schraeder, Dirk Theodor, Tommy Schafran, Bärbel Geisen, and Lisa Rubbert. “Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom.” Orthopädie Technik 71 (9) (2020): 32–37.","bibtex":"@article{Schraeder_Schafran_Geisen_Rubbert_2020, title={Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom}, volume={71 (9)}, journal={Orthopädie Technik}, author={Schraeder, Dirk Theodor and Schafran, Tommy and Geisen, Bärbel and Rubbert, Lisa}, year={2020}, pages={32–37} }","mla":"Schraeder, Dirk Theodor, et al. “Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom.” Orthopädie Technik, vol. 71 (9), 2020, pp. 32–37.","short":"D.T. Schraeder, T. Schafran, B. Geisen, L. Rubbert, Orthopädie Technik 71 (9) (2020) 32–37."},"status":"public","language":[{"iso":"ger"}],"year":"2020","type":"journal_article","date_created":"2021-09-09T11:54:31Z","publication":"Orthopädie Technik","date_updated":"2022-01-06T06:56:06Z","volume":"71 (9)","_id":"24031","page":"32-37"},{"date_created":"2021-09-10T08:39:00Z","publication":"Blasformen & Extrusionswerkzeuge","language":[{"iso":"ger"}],"year":"2020","type":"newspaper_article","status":"public","_id":"24133","publication_date":"2020","page":"7","date_updated":"2022-01-06T06:56:07Z","title":"Der richtige Dreh für Simulationen","author":[{"full_name":"Schöppner, Volker","first_name":"Volker","last_name":"Schöppner","id":"20530"},{"full_name":"Austermeier, Laura","first_name":"Laura","id":"45326","last_name":"Austermeier"},{"last_name":"Dietl","full_name":"Dietl, Kilian","first_name":"Kilian"}],"citation":{"apa":"Schöppner, V., Austermeier, L., & Dietl, K. (2020). Der richtige Dreh für Simulationen. Blasformen & Extrusionswerkzeuge.","ama":"Schöppner V, Austermeier L, Dietl K. Der richtige Dreh für Simulationen. Blasformen & Extrusionswerkzeuge. 2020.","ieee":"V. Schöppner, L. Austermeier, and K. Dietl, “Der richtige Dreh für Simulationen,” Blasformen & Extrusionswerkzeuge, 2020.","chicago":"Schöppner, Volker, Laura Austermeier, and Kilian Dietl. “Der richtige Dreh für Simulationen.” Blasformen & Extrusionswerkzeuge, 2020.","bibtex":"@article{Schöppner_Austermeier_Dietl_2020, title={Der richtige Dreh für Simulationen}, journal={Blasformen & Extrusionswerkzeuge}, author={Schöppner, Volker and Austermeier, Laura and Dietl, Kilian}, year={2020} }","mla":"Schöppner, Volker, et al. “Der richtige Dreh für Simulationen.” Blasformen & Extrusionswerkzeuge, 2020.","short":"V. Schöppner, L. Austermeier, K. Dietl, Blasformen & Extrusionswerkzeuge (2020)."},"publication_status":"published","keyword":["Compoundieren","Doppenschneckenextruder","Energieeintrag"],"user_id":"45326","department":[{"_id":"367"},{"_id":"9"},{"_id":"321"}]},{"date_updated":"2022-01-06T06:56:07Z","publication_date":"2020-11-06","_id":"24134","year":"2020","type":"newspaper_article","language":[{"iso":"ger"}],"status":"public","publication":"K Zeitung","date_created":"2021-09-10T08:48:00Z","department":[{"_id":"367"},{"_id":"9"},{"_id":"321"}],"citation":{"mla":"Schöppner, Volker, et al. “SKZ simuliert Doppelschnecke.” K Zeitung, 2020.","bibtex":"@article{Schöppner_Austermeier_Dietl_2020, title={SKZ simuliert Doppelschnecke}, journal={K Zeitung}, author={Schöppner, Volker and Austermeier, Laura and Dietl, Kilian}, year={2020} }","short":"V. Schöppner, L. Austermeier, K. Dietl, K Zeitung (2020).","ama":"Schöppner V, Austermeier L, Dietl K. SKZ simuliert Doppelschnecke. K Zeitung. 2020.","apa":"Schöppner, V., Austermeier, L., & Dietl, K. (2020). SKZ simuliert Doppelschnecke. K Zeitung.","chicago":"Schöppner, Volker, Laura Austermeier, and Kilian Dietl. “SKZ simuliert Doppelschnecke.” K Zeitung, 2020.","ieee":"V. Schöppner, L. Austermeier, and K. Dietl, “SKZ simuliert Doppelschnecke,” K Zeitung, 2020."},"user_id":"45326","keyword":["Compoundieren","Doppenschneckenextruder","Energieeintrag"],"publication_status":"published","title":"SKZ simuliert Doppelschnecke","author":[{"id":"20530","last_name":"Schöppner","full_name":"Schöppner, Volker","first_name":"Volker"},{"first_name":"Laura","full_name":"Austermeier, Laura","id":"45326","last_name":"Austermeier"},{"last_name":"Dietl","full_name":"Dietl, Kilian","first_name":"Kilian"}]},{"quality_controlled":"1","publication":"Materials and Structures","date_created":"2021-09-13T05:22:51Z","status":"public","publication_identifier":{"issn":["1359-5997","1871-6873"]},"year":"2020","type":"journal_article","language":[{"iso":"eng"}],"_id":"24182","date_updated":"2022-01-06T06:56:09Z","author":[{"first_name":"Michael","full_name":"Haist, Michael","last_name":"Haist"},{"full_name":"Link, Julian","first_name":"Julian","last_name":"Link"},{"first_name":"David","full_name":"Nicia, David","last_name":"Nicia"},{"last_name":"Leinitz","first_name":"Sarah","full_name":"Leinitz, Sarah"},{"full_name":"Baumert, Christian","first_name":"Christian","last_name":"Baumert"},{"last_name":"von Bronk","first_name":"Tabea","full_name":"von Bronk, Tabea"},{"full_name":"Cotardo, Dario","first_name":"Dario","last_name":"Cotardo"},{"last_name":"Eslami Pirharati","full_name":"Eslami Pirharati, Mahmoud","first_name":"Mahmoud"},{"first_name":"Shirin","full_name":"Fataei, Shirin","last_name":"Fataei"},{"last_name":"Garrecht","first_name":"Harald","full_name":"Garrecht, Harald"},{"full_name":"Gehlen, Christoph","first_name":"Christoph","last_name":"Gehlen"},{"last_name":"Hauschildt","first_name":"Inga","full_name":"Hauschildt, Inga"},{"full_name":"Ivanova, Irina","first_name":"Irina","last_name":"Ivanova"},{"last_name":"Jesinghausen","first_name":"Steffen","full_name":"Jesinghausen, Steffen"},{"first_name":"Christopher","full_name":"Klein, Christopher","last_name":"Klein"},{"first_name":"Hans-W.","full_name":"Krauss, Hans-W.","last_name":"Krauss"},{"last_name":"Lohaus","first_name":"Ludger","full_name":"Lohaus, Ludger"},{"last_name":"Lowke","first_name":"Dirk","full_name":"Lowke, Dirk"},{"last_name":"Mazanec","first_name":"Oliver","full_name":"Mazanec, Oliver"},{"first_name":"Sebastian","full_name":"Pawelczyk, Sebastian","last_name":"Pawelczyk"},{"last_name":"Pott","first_name":"Ursula","full_name":"Pott, Ursula"},{"full_name":"Radebe, Nonkululeko W.","first_name":"Nonkululeko W.","last_name":"Radebe"},{"first_name":"Joachim Jürgen","full_name":"Riedmiller, Joachim Jürgen","last_name":"Riedmiller"},{"first_name":"Hans-Joachim","full_name":"Schmid, Hans-Joachim","last_name":"Schmid"},{"last_name":"Schmidt","first_name":"Wolfram","full_name":"Schmidt, Wolfram"},{"last_name":"Secrieru","full_name":"Secrieru, Egor","first_name":"Egor"},{"last_name":"Stephan","full_name":"Stephan, Dietmar","first_name":"Dietmar"},{"last_name":"Thiedeitz","first_name":"Mareike","full_name":"Thiedeitz, Mareike"},{"last_name":"Wilhelm","first_name":"Manfred","full_name":"Wilhelm, Manfred"},{"last_name":"Mechtcherine","full_name":"Mechtcherine, Viktor","first_name":"Viktor"}],"title":"Interlaboratory study on rheological properties of cement pastes and reference substances: comparability of measurements performed with different rheometers and measurement geometries","doi":"10.1617/s11527-020-01477-w","abstract":[{"text":"AbstractThis paper presents the results of an interlaboratory study of the rheological properties of cement paste and ultrasound gel as reference substance. The goal was to quantify the comparability and reproducibility of measurements of the Bingham parameters yield stress and plastic viscosity when measured on one specific paste composition and one particular ultrasound gel in different laboratories using different rheometers and measurement geometries. The procedures for both in preparing the cement paste and carrying out the rheological measurements on cement paste and ultrasound gel were carefully defined for all of the study’s participants. Different conversion schemes for comparing the results obtained with the different measurement setups are presented here and critically discussed. The procedure proposed in this paper ensured a reasonable comparability of the results with a coefficient of variation for the yield stress of 27% and for the plastic viscosity of 24%, despite the individual measurement series’ having been performed in different labs with different rheometers and measurement geometries.","lang":"eng"}],"user_id":"38243","publication_status":"published","citation":{"ieee":"M. Haist et al., “Interlaboratory study on rheological properties of cement pastes and reference substances: comparability of measurements performed with different rheometers and measurement geometries,” Materials and Structures, 2020, doi: 10.1617/s11527-020-01477-w.","chicago":"Haist, Michael, Julian Link, David Nicia, Sarah Leinitz, Christian Baumert, Tabea von Bronk, Dario Cotardo, et al. “Interlaboratory Study on Rheological Properties of Cement Pastes and Reference Substances: Comparability of Measurements Performed with Different Rheometers and Measurement Geometries.” Materials and Structures, 2020. https://doi.org/10.1617/s11527-020-01477-w.","apa":"Haist, M., Link, J., Nicia, D., Leinitz, S., Baumert, C., von Bronk, T., Cotardo, D., Eslami Pirharati, M., Fataei, S., Garrecht, H., Gehlen, C., Hauschildt, I., Ivanova, I., Jesinghausen, S., Klein, C., Krauss, H.-W., Lohaus, L., Lowke, D., Mazanec, O., … Mechtcherine, V. (2020). Interlaboratory study on rheological properties of cement pastes and reference substances: comparability of measurements performed with different rheometers and measurement geometries. Materials and Structures. https://doi.org/10.1617/s11527-020-01477-w","ama":"Haist M, Link J, Nicia D, et al. Interlaboratory study on rheological properties of cement pastes and reference substances: comparability of measurements performed with different rheometers and measurement geometries. Materials and Structures. Published online 2020. doi:10.1617/s11527-020-01477-w","short":"M. Haist, J. Link, D. Nicia, S. Leinitz, C. Baumert, T. von Bronk, D. Cotardo, M. Eslami Pirharati, S. Fataei, H. Garrecht, C. Gehlen, I. Hauschildt, I. Ivanova, S. Jesinghausen, C. Klein, H.-W. Krauss, L. Lohaus, D. Lowke, O. Mazanec, S. Pawelczyk, U. Pott, N.W. Radebe, J.J. Riedmiller, H.-J. Schmid, W. Schmidt, E. Secrieru, D. Stephan, M. Thiedeitz, M. Wilhelm, V. Mechtcherine, Materials and Structures (2020).","bibtex":"@article{Haist_Link_Nicia_Leinitz_Baumert_von Bronk_Cotardo_Eslami Pirharati_Fataei_Garrecht_et al._2020, title={Interlaboratory study on rheological properties of cement pastes and reference substances: comparability of measurements performed with different rheometers and measurement geometries}, DOI={10.1617/s11527-020-01477-w}, journal={Materials and Structures}, author={Haist, Michael and Link, Julian and Nicia, David and Leinitz, Sarah and Baumert, Christian and von Bronk, Tabea and Cotardo, Dario and Eslami Pirharati, Mahmoud and Fataei, Shirin and Garrecht, Harald and et al.}, year={2020} }","mla":"Haist, Michael, et al. “Interlaboratory Study on Rheological Properties of Cement Pastes and Reference Substances: Comparability of Measurements Performed with Different Rheometers and Measurement Geometries.” Materials and Structures, 2020, doi:10.1617/s11527-020-01477-w."},"department":[{"_id":"150"}]}]