[{"related_material":{"link":[{"relation":"confirmation","url":"https://github.com/emtpb/pyfds"}]},"year":"2024","citation":{"ama":"Claes L, Webersen M. Pyfds 0.3.1 - Modular Field Simulation Tool. GitHub, Inc.; 2024. doi:10.5281/ZENODO.2649826","ieee":"L. Claes and M. Webersen, pyfds 0.3.1 - modular field simulation tool. GitHub, Inc., 2024.","chicago":"Claes, Leander, and Manuel Webersen. Pyfds 0.3.1 - Modular Field Simulation Tool. GitHub, Inc., 2024. https://doi.org/10.5281/ZENODO.2649826.","apa":"Claes, L., & Webersen, M. (2024). pyfds 0.3.1 - modular field simulation tool. GitHub, Inc. https://doi.org/10.5281/ZENODO.2649826","short":"L. Claes, M. Webersen, Pyfds 0.3.1 - Modular Field Simulation Tool, GitHub, Inc., 2024.","bibtex":"@book{Claes_Webersen_2024, title={pyfds 0.3.1 - modular field simulation tool}, DOI={10.5281/ZENODO.2649826}, publisher={GitHub, Inc.}, author={Claes, Leander and Webersen, Manuel}, year={2024} }","mla":"Claes, Leander, and Manuel Webersen. Pyfds 0.3.1 - Modular Field Simulation Tool. GitHub, Inc., 2024, doi:10.5281/ZENODO.2649826."},"date_updated":"2025-06-06T14:20:56Z","publisher":"GitHub, Inc.","author":[{"first_name":"Leander","id":"11829","full_name":"Claes, Leander","last_name":"Claes","orcid":"0000-0002-4393-268X"},{"first_name":"Manuel","full_name":"Webersen, Manuel","id":"11289","orcid":"0000-0001-6411-4232","last_name":"Webersen"}],"date_created":"2019-08-23T09:06:06Z","title":"pyfds 0.3.1 - modular field simulation tool","doi":"10.5281/ZENODO.2649826","type":"research_data","status":"public","_id":"12950","department":[{"_id":"49"}],"user_id":"11829"},{"publication":"SEFI 51th Annual Conference Proceedings - Engineering Education for Sustainability","type":"conference","status":"public","_id":"47138","department":[{"_id":"49"}],"user_id":"38123","language":[{"iso":"eng"}],"year":"2023","citation":{"ieee":"T. Hetkämper, K. Koch, M. Webersen, and L. Claes, “Application-based learning of signal analysis methods with the help of a graphical open-source software,” presented at the SEFI 2023 Annual Conference, 2023, doi: 10.21427/159K-G445.","chicago":"Hetkämper, Tim, Kevin Koch, Manuel Webersen, and Leander Claes. “Application-Based Learning of Signal Analysis Methods with the Help of a Graphical Open-Source Software.” In SEFI 51th Annual Conference Proceedings - Engineering Education for Sustainability. SEFI, 2023. https://doi.org/10.21427/159K-G445.","ama":"Hetkämper T, Koch K, Webersen M, Claes L. Application-based learning of signal analysis methods with the help of a graphical open-source software. In: SEFI 51th Annual Conference Proceedings - Engineering Education for Sustainability. SEFI; 2023. doi:10.21427/159K-G445","bibtex":"@inproceedings{Hetkämper_Koch_Webersen_Claes_2023, title={Application-based learning of signal analysis methods with the help of a graphical open-source software}, DOI={10.21427/159K-G445}, booktitle={SEFI 51th Annual Conference Proceedings - Engineering Education for Sustainability}, publisher={SEFI}, author={Hetkämper, Tim and Koch, Kevin and Webersen, Manuel and Claes, Leander}, year={2023} }","mla":"Hetkämper, Tim, et al. “Application-Based Learning of Signal Analysis Methods with the Help of a Graphical Open-Source Software.” SEFI 51th Annual Conference Proceedings - Engineering Education for Sustainability, SEFI, 2023, doi:10.21427/159K-G445.","short":"T. Hetkämper, K. Koch, M. Webersen, L. Claes, in: SEFI 51th Annual Conference Proceedings - Engineering Education for Sustainability, SEFI, 2023.","apa":"Hetkämper, T., Koch, K., Webersen, M., & Claes, L. (2023). Application-based learning of signal analysis methods with the help of a graphical open-source software. SEFI 51th Annual Conference Proceedings - Engineering Education for Sustainability. SEFI 2023 Annual Conference. https://doi.org/10.21427/159K-G445"},"publisher":"SEFI","date_updated":"2023-11-10T10:25:27Z","author":[{"first_name":"Tim","last_name":"Hetkämper","id":"38123","full_name":"Hetkämper, Tim"},{"first_name":"Kevin","last_name":"Koch","full_name":"Koch, Kevin"},{"full_name":"Webersen, Manuel","id":"11289","last_name":"Webersen","orcid":"0000-0001-6411-4232","first_name":"Manuel"},{"orcid":"0000-0002-4393-268X","last_name":"Claes","full_name":"Claes, Leander","id":"11829","first_name":"Leander"}],"date_created":"2023-09-20T11:31:44Z","title":"Application-based learning of signal analysis methods with the help of a graphical open-source software","doi":"10.21427/159K-G445","conference":{"end_date":"2023-09-14","name":"SEFI 2023 Annual Conference","start_date":"2023-09-11"}},{"alternative_title":["Untersuchung von Eigenheiten piezoelektrischer Detektionsmethoden für akustische Plattenwellen zur Materialcharakterisierung"],"language":[{"iso":"eng"}],"project":[{"name":"Vermiedene Kreuzungen von Lamb-Wellenmoden in mehrlagigen Strukturen","_id":"105","grant_number":"449607253"}],"_id":"21067","user_id":"11829","department":[{"_id":"49"}],"abstract":[{"lang":"eng","text":"Acoustic waves in plates have proven a viable tool for testing and material characterisation purposes. There are a multitude of options for excitation and detection of theses waves, such as optical and piezoelectric systems. While optical systems, with thermoelastic excitation and interferometric detection, have the benefit of being contactless, they usually require rather complex and expensive experimental setups. Piezoelectric systems are more easily realised but require direct contact with the specimen and usually have a limited bandwidth, especially in case of piezoelectric excitation. In this work, the authors compare the properties of piezoelectric and optical detection methods for broad-band acoustic signals. The shape (e. g. the displacement) of a propagating plate wave is given by its frequency and wave number, allowing to investigate correlations between mode shapes and received signal strengths. This is aided by evaluations in normalised frequency and wavenumber space, facilitating comparisons of different specimens. Further, the authors explore possibilities to utilise the specific properties of the detection methods to determine acoustic material parameters."}],"status":"public","type":"journal_article","publication":"tm - Technisches Messen","title":"Investigating peculiarities of piezoelectric detection methods for acoustic plate waves in material characterisation applications","doi":"10.1515/teme-2020-0098","date_updated":"2022-01-06T06:54:44Z","author":[{"last_name":"Claes","orcid":"0000-0002-4393-268X","full_name":"Claes, Leander","id":"11829","first_name":"Leander"},{"first_name":"Hanna","last_name":"Schmiegel","full_name":"Schmiegel, Hanna"},{"first_name":"Clemens","full_name":"Grünsteidl, Clemens","last_name":"Grünsteidl"},{"first_name":"Sarah","full_name":"Johannesmann, Sarah","id":"29190","last_name":"Johannesmann"},{"last_name":"Webersen","orcid":"0000-0001-6411-4232","full_name":"Webersen, Manuel","id":"11289","first_name":"Manuel"},{"first_name":"Bernd","last_name":"Henning","id":"213","full_name":"Henning, Bernd"}],"date_created":"2021-01-25T09:38:58Z","volume":88,"year":"2021","citation":{"apa":"Claes, L., Schmiegel, H., Grünsteidl, C., Johannesmann, S., Webersen, M., & Henning, B. (2021). Investigating peculiarities of piezoelectric detection methods for acoustic plate waves in material characterisation applications. Tm - Technisches Messen, 88(3), 147–155. https://doi.org/10.1515/teme-2020-0098","bibtex":"@article{Claes_Schmiegel_Grünsteidl_Johannesmann_Webersen_Henning_2021, title={Investigating peculiarities of piezoelectric detection methods for acoustic plate waves in material characterisation applications}, volume={88}, DOI={10.1515/teme-2020-0098}, number={3}, journal={tm - Technisches Messen}, author={Claes, Leander and Schmiegel, Hanna and Grünsteidl, Clemens and Johannesmann, Sarah and Webersen, Manuel and Henning, Bernd}, year={2021}, pages={147–155} }","mla":"Claes, Leander, et al. “Investigating Peculiarities of Piezoelectric Detection Methods for Acoustic Plate Waves in Material Characterisation Applications.” Tm - Technisches Messen, vol. 88, no. 3, 2021, pp. 147–55, doi:10.1515/teme-2020-0098.","short":"L. Claes, H. Schmiegel, C. Grünsteidl, S. Johannesmann, M. Webersen, B. Henning, Tm - Technisches Messen 88 (2021) 147–155.","ama":"Claes L, Schmiegel H, Grünsteidl C, Johannesmann S, Webersen M, Henning B. Investigating peculiarities of piezoelectric detection methods for acoustic plate waves in material characterisation applications. tm - Technisches Messen. 2021;88(3):147-155. doi:10.1515/teme-2020-0098","chicago":"Claes, Leander, Hanna Schmiegel, Clemens Grünsteidl, Sarah Johannesmann, Manuel Webersen, and Bernd Henning. “Investigating Peculiarities of Piezoelectric Detection Methods for Acoustic Plate Waves in Material Characterisation Applications.” Tm - Technisches Messen 88, no. 3 (2021): 147–55. https://doi.org/10.1515/teme-2020-0098.","ieee":"L. Claes, H. Schmiegel, C. Grünsteidl, S. Johannesmann, M. Webersen, and B. Henning, “Investigating peculiarities of piezoelectric detection methods for acoustic plate waves in material characterisation applications,” tm - Technisches Messen, vol. 88, no. 3, pp. 147–155, 2021."},"intvolume":" 88","page":"147-155","publication_status":"published","publication_identifier":{"issn":["2196-7113","0171-8096"]},"issue":"3"},{"title":"Zerstörungsfreie Charakterisierung der elastischen Materialeigenschaften thermoplastischer Polymerwerkstoffe mittels Ultraschall","doi":"10.17619/UNIPB/1-1088","publisher":"Universitätsbibliothek Paderborn","date_updated":"2022-01-06T06:54:49Z","author":[{"orcid":"0000-0001-6411-4232","last_name":"Webersen","id":"11289","full_name":"Webersen, Manuel","first_name":"Manuel"}],"date_created":"2021-02-05T11:47:28Z","year":"2021","citation":{"chicago":"Webersen, Manuel. Zerstörungsfreie Charakterisierung der elastischen Materialeigenschaften thermoplastischer Polymerwerkstoffe mittels Ultraschall. Universitätsbibliothek Paderborn, 2021. https://doi.org/10.17619/UNIPB/1-1088.","ieee":"M. Webersen, Zerstörungsfreie Charakterisierung der elastischen Materialeigenschaften thermoplastischer Polymerwerkstoffe mittels Ultraschall. Universitätsbibliothek Paderborn, 2021.","ama":"Webersen M. Zerstörungsfreie Charakterisierung der elastischen Materialeigenschaften thermoplastischer Polymerwerkstoffe mittels Ultraschall. Universitätsbibliothek Paderborn; 2021. doi:10.17619/UNIPB/1-1088","bibtex":"@book{Webersen_2021, title={Zerstörungsfreie Charakterisierung der elastischen Materialeigenschaften thermoplastischer Polymerwerkstoffe mittels Ultraschall}, DOI={10.17619/UNIPB/1-1088}, publisher={Universitätsbibliothek Paderborn}, author={Webersen, Manuel}, year={2021} }","mla":"Webersen, Manuel. Zerstörungsfreie Charakterisierung der elastischen Materialeigenschaften thermoplastischer Polymerwerkstoffe mittels Ultraschall. Universitätsbibliothek Paderborn, 2021, doi:10.17619/UNIPB/1-1088.","short":"M. Webersen, Zerstörungsfreie Charakterisierung der elastischen Materialeigenschaften thermoplastischer Polymerwerkstoffe mittels Ultraschall, Universitätsbibliothek Paderborn, 2021.","apa":"Webersen, M. (2021). Zerstörungsfreie Charakterisierung der elastischen Materialeigenschaften thermoplastischer Polymerwerkstoffe mittels Ultraschall. Universitätsbibliothek Paderborn. https://doi.org/10.17619/UNIPB/1-1088"},"publication_status":"published","language":[{"iso":"ger"}],"_id":"21183","department":[{"_id":"49"}],"user_id":"11289","abstract":[{"text":"Die präzise Kenntnis der Eigenschaften verwendeter Materialien hat große Bedeutung für den Entwurf technischer Systeme aller Art, aber auch für die Überwachung solcher Systeme im Betrieb. Für verschiedene physikalische Eigenschaften, Betriebsbedingungen und Materialklassen werden daher geeignete messtechnische Verfahren zur Materialcharakterisierung benötigt. In der vorliegenden Arbeit wird ein Verfahren zur ultraschallbasierten Charakterisierung der mechanischen Eigenschaften von homogenen und faserverstärkten thermoplastischen Polymeren unter Berücksichtigung der Richtungsabhängigkeit vorgestellt. Plattenförmige Probekörper werden dazu mittels Laser-Pulsen hoher Energie breitbandig angeregt und die resultierenden akustischen Lamb-Wellen aufgezeichnet. Auf Basis der dispersiven Eigenschaften der detektierten Wellenleitermoden werden in einem inversen Verfahren die Parameter eines linear-elastischen Materialmodells identifiziert. Darüber hinaus wird ein Verfahren zur vollständigen Charakterisierung der Richtungsabhängigkeit in orthotropen Materialien wie Faserverbundwerkstoffen unter Verwendung eines zweidimensionalen Simulationsmodells vorgestellt. Das Messverfahren wird anhand einer Untersuchungsreihe an künstlich gealterten Polymer- und Faserverbundwerkstoffen verifiziert und die Übertragbarkeit der Ergebnisse auf den quasistatischen Fall betrachtet. Im Vergleich mit den Ergebnissen mechanischer Zugversuche werden die Voraussetzungen und Einschränkungen, insbesondere durch die Annahme eines ideal-elastischen Materialmodells, diskutiert.","lang":"ger"},{"lang":"eng","text":"Precise knowledge of material properties is a great concern in the design of technical systems, and in the monitoring of such systems during operation. Therefore, metrological processes are required for materials characterisation with respect to specific physical properties, operational conditions and classes of materials. In the work presented herein, a measurement procedure for the ultrasonic characterization of mechanical properties of homogeneous and fiber-reinforced thermoplastic polymer materials is presented, considering the different degrees of anisotropy. For this, acoustic Lamb waves are excited in a plate-shaped specimen using high-energy laser pulses, and then recorded.Based on the dispersive characteristics of the detected waveguide modes, an inverse procedure is applied to identify the parameters of a linear-elastic material model. Further, a procedure for completely characterising the orthotropy of materials like fiber-reinforced composites using a two-dimensional simulation model is presented. The measurement procedure is verified by examining artificially aged homogeneous polymers and composites, also considering the applicability of results to the quasistatic case. Comparing to the results of corresponding mechanical tensile tests, preconditions and limitations of the procedure are discussed, specifically regarding the assumption of an ideal-elastic material model."}],"status":"public","type":"dissertation"},{"status":"public","type":"conference","language":[{"iso":"eng"}],"department":[{"_id":"49"}],"user_id":"32580","_id":"22013","project":[{"grant_number":"449607253","name":"Vermiedene Kreuzungen von Lamb-Wellenmoden in mehrlagigen Strukturen","_id":"105"}],"page":"91 - 92","citation":{"apa":"Zeipert, H., Claes, L., Johannesmann, S., Webersen, M., Lugovtsova, Y., Prager, J., & Henning, B. (2021). Measurement and Simulation of Lamb Waves in Adhesive-bonded Multilayer Systems (pp. 91–92). Presented at the Sensor and Measurement Science International, Nürnberg. https://doi.org/10.5162/SMSI2021/A8.2","short":"H. Zeipert, L. Claes, S. Johannesmann, M. Webersen, Y. Lugovtsova, J. Prager, B. Henning, in: 2021, pp. 91–92.","bibtex":"@inproceedings{Zeipert_Claes_Johannesmann_Webersen_Lugovtsova_Prager_Henning_2021, title={Measurement and Simulation of Lamb Waves in Adhesive-bonded Multilayer Systems}, DOI={10.5162/SMSI2021/A8.2}, author={Zeipert, Henning and Claes, Leander and Johannesmann, Sarah and Webersen, Manuel and Lugovtsova, Yevgeniya and Prager, Jens and Henning, Bernd}, year={2021}, pages={91–92} }","mla":"Zeipert, Henning, et al. Measurement and Simulation of Lamb Waves in Adhesive-Bonded Multilayer Systems. 2021, pp. 91–92, doi:10.5162/SMSI2021/A8.2.","ama":"Zeipert H, Claes L, Johannesmann S, et al. Measurement and Simulation of Lamb Waves in Adhesive-bonded Multilayer Systems. In: ; 2021:91-92. doi:10.5162/SMSI2021/A8.2","ieee":"H. Zeipert et al., “Measurement and Simulation of Lamb Waves in Adhesive-bonded Multilayer Systems,” presented at the Sensor and Measurement Science International, Nürnberg, 2021, pp. 91–92.","chicago":"Zeipert, Henning, Leander Claes, Sarah Johannesmann, Manuel Webersen, Yevgeniya Lugovtsova, Jens Prager, and Bernd Henning. “Measurement and Simulation of Lamb Waves in Adhesive-Bonded Multilayer Systems,” 91–92, 2021. https://doi.org/10.5162/SMSI2021/A8.2."},"year":"2021","conference":{"location":"Nürnberg","name":"Sensor and Measurement Science International"},"doi":"10.5162/SMSI2021/A8.2","title":"Measurement and Simulation of Lamb Waves in Adhesive-bonded Multilayer Systems","date_created":"2021-05-07T07:33:54Z","author":[{"id":"32580","full_name":"Zeipert, Henning","last_name":"Zeipert","first_name":"Henning"},{"first_name":"Leander","last_name":"Claes","orcid":"0000-0002-4393-268X","id":"11829","full_name":"Claes, Leander"},{"last_name":"Johannesmann","id":"29190","full_name":"Johannesmann, Sarah","first_name":"Sarah"},{"orcid":"0000-0001-6411-4232","last_name":"Webersen","full_name":"Webersen, Manuel","id":"11289","first_name":"Manuel"},{"first_name":"Yevgeniya","full_name":"Lugovtsova, Yevgeniya","last_name":"Lugovtsova"},{"full_name":"Prager, Jens","last_name":"Prager","first_name":"Jens"},{"first_name":"Bernd","full_name":"Henning, Bernd","id":"213","last_name":"Henning"}],"date_updated":"2022-01-06T06:55:22Z"},{"place":"Berlin, Heidelberg","year":"2020","citation":{"mla":"Moritzer, Elmar, et al. “The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and Its Non-Destructive Characterization.” Advances in Polymer Processing 2020, edited by Christian Hopmann and Rainer Dahlmann, Springer, 2020, doi:10.1007/978-3-662-60809-8_16.","bibtex":"@inbook{Moritzer_Hüttner_Henning_Webersen_2020, place={Berlin, Heidelberg}, title={The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and its Non-Destructive Characterization}, DOI={10.1007/978-3-662-60809-8_16}, booktitle={Advances in Polymer Processing 2020}, publisher={Springer}, author={Moritzer, Elmar and Hüttner, Matthias and Henning, Bernd and Webersen, Manuel}, editor={Hopmann, Christian and Dahlmann, RainerEditors}, year={2020} }","short":"E. Moritzer, M. Hüttner, B. Henning, M. Webersen, in: C. Hopmann, R. Dahlmann (Eds.), Advances in Polymer Processing 2020, Springer, Berlin, Heidelberg, 2020.","apa":"Moritzer, E., Hüttner, M., Henning, B., & Webersen, M. (2020). The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and its Non-Destructive Characterization. In C. Hopmann & R. Dahlmann (Eds.), Advances in Polymer Processing 2020. Berlin, Heidelberg: Springer. https://doi.org/10.1007/978-3-662-60809-8_16","ama":"Moritzer E, Hüttner M, Henning B, Webersen M. The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and its Non-Destructive Characterization. In: Hopmann C, Dahlmann R, eds. Advances in Polymer Processing 2020. Berlin, Heidelberg: Springer; 2020. doi:10.1007/978-3-662-60809-8_16","chicago":"Moritzer, Elmar, Matthias Hüttner, Bernd Henning, and Manuel Webersen. “The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and Its Non-Destructive Characterization.” In Advances in Polymer Processing 2020, edited by Christian Hopmann and Rainer Dahlmann. Berlin, Heidelberg: Springer, 2020. https://doi.org/10.1007/978-3-662-60809-8_16.","ieee":"E. Moritzer, M. Hüttner, B. Henning, and M. Webersen, “The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and its Non-Destructive Characterization,” in Advances in Polymer Processing 2020, C. Hopmann and R. Dahlmann, Eds. Berlin, Heidelberg: Springer, 2020."},"publication_identifier":{"isbn":["9783662608081","9783662608098"]},"publication_status":"published","title":"The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and its Non-Destructive Characterization","doi":"10.1007/978-3-662-60809-8_16","conference":{"location":"Aachen","name":"International Symposium on Plastics Technology"},"publisher":"Springer","date_updated":"2022-01-06T06:53:08Z","date_created":"2020-07-01T12:33:10Z","author":[{"last_name":"Moritzer","full_name":"Moritzer, Elmar","first_name":"Elmar"},{"last_name":"Hüttner","full_name":"Hüttner, Matthias","first_name":"Matthias"},{"first_name":"Bernd","full_name":"Henning, Bernd","id":"213","last_name":"Henning"},{"first_name":"Manuel","id":"11289","full_name":"Webersen, Manuel","last_name":"Webersen","orcid":"0000-0001-6411-4232"}],"editor":[{"first_name":"Christian","full_name":"Hopmann, Christian","last_name":"Hopmann"},{"first_name":"Rainer","last_name":"Dahlmann","full_name":"Dahlmann, Rainer"}],"status":"public","publication":"Advances in Polymer Processing 2020","type":"book_chapter","language":[{"iso":"eng"}],"_id":"17352","department":[{"_id":"49"}],"user_id":"11289"},{"year":"2020","citation":{"bibtex":"@inproceedings{Johannesmann_Becker_Webersen_Henning_2020, title={Determination of Murnaghan constants of plate-shaped polymers under uniaxial tensile load}, DOI={10.5162/SMSI2020/D6.1}, booktitle={SMSI 2020 - Measurement Science}, author={Johannesmann, Sarah and Becker, Sebastian and Webersen, Manuel and Henning, Bernd}, year={2020} }","short":"S. Johannesmann, S. Becker, M. Webersen, B. Henning, in: SMSI 2020 - Measurement Science, 2020.","mla":"Johannesmann, Sarah, et al. “Determination of Murnaghan Constants of Plate-Shaped Polymers under Uniaxial Tensile Load.” SMSI 2020 - Measurement Science, 2020, doi:10.5162/SMSI2020/D6.1.","apa":"Johannesmann, S., Becker, S., Webersen, M., & Henning, B. (2020). Determination of Murnaghan constants of plate-shaped polymers under uniaxial tensile load. In SMSI 2020 - Measurement Science. Nuremberg. https://doi.org/10.5162/SMSI2020/D6.1","ama":"Johannesmann S, Becker S, Webersen M, Henning B. Determination of Murnaghan constants of plate-shaped polymers under uniaxial tensile load. In: SMSI 2020 - Measurement Science. ; 2020. doi:10.5162/SMSI2020/D6.1","ieee":"S. Johannesmann, S. Becker, M. Webersen, and B. 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