@inproceedings{65211, author = {{Held, Christian and Moritzer, Elmar}}, booktitle = {{FA11 – Kunststoff-Fügen}}, title = {{{Werkstofflicher Ansatz zum adhäsiv-basierten Fügen für hochflexible TPE-Organobleche als Verstärkungsstruktur}}}, year = {{2025}}, } @inproceedings{65203, author = {{Held, Christian and Moritzer, Elmar}}, booktitle = {{the 40th International Conference of Polymer Processing Society}}, title = {{{Influence of the processing parameters on the mechanical strenght of injection moulded BMC components for direct screwing}}}, year = {{2025}}, } @inproceedings{65208, author = {{Rempel, Timm and Brüning, Florian}}, booktitle = {{ANTEC}}, title = {{{Investigations into the specific throughput stability of conical feed zones over the rotation speed during the direct processing of polypropylene regrind}}}, year = {{2025}}, } @inproceedings{65209, author = {{Held, Christian and Moritzer, Elmar}}, booktitle = {{FA11 – Kunststoff-Fügen}}, title = {{{Werkstoffgerechte Auslegung von Direktverschraubungen in SMC/BMC Bauteilen}}}, year = {{2025}}, } @inproceedings{65210, author = {{Held, Christian and Moritzer, Elmar}}, booktitle = {{FA11 – Kunststoff-Fügen}}, title = {{{Werkstoffgerechte Auslegung von Direktverschraubungen in SMC/BMC Bauteilen}}}, year = {{2025}}, } @article{63662, abstract = {{The accurate prediction of crack initiation and propagation is essential for assessing the structural integrity of mechanically joined components and other complex assemblies. To overcome the limitations of existing finite element tools, a modular Python framework has been developed to automate three-dimensional crack growth simulations. The program combines geometric reconstruction, adaptive remeshing, and the numerical evaluation of fracture mechanics parameters within a single, fully automated workflow. The framework builds on open-source components and remains solver-independent, enabling straightforward integration with commercial or research finite element codes. A dedicated sequence of modules performs all required steps, from mesh separation and crack insertion to local submodeling, stress and displacement mapping, and iterative crack-front update, without manual interaction. The methodology was verified using a mini-compact tension (Mini-CT) specimen as a benchmark case. The numerical results demonstrate the accurate reproduction of stress intensity factors and energy release rates while achieving high computational efficiency through localized refinement. The developed approach provides a robust basis for crack growth simulations of geometrically complex or residual stress-affected structures. Its high degree of automation and flexibility makes it particularly suited for analyzing cracks in clinched and riveted joints, supporting the predictive design and durability assessment of joined lightweight structures.}}, author = {{Krome, Sven and Duffe, Tobias and Kullmer, Gunter and Schramm, Britta and Ostwald, Richard}}, issn = {{2076-3417}}, journal = {{Applied Sciences}}, number = {{1}}, publisher = {{MDPI AG}}, title = {{{Validation and Verification of Novel Three-Dimensional Crack Growth Simulation Software GmshCrack3D}}}, doi = {{10.3390/app16010384}}, volume = {{16}}, year = {{2025}}, } @misc{63764, author = {{Weiß, Deborah and Krome, Sven and Duffe, Tobias and Kullmer, Gunter and Ostwald, Richard}}, publisher = {{LibreCat University}}, title = {{{Experimentelle Ermittlung von Rissablenkungswinkeln bei außerphasiger Mixed-Mode-Belastung mittels einer neuartigen Probengeometrie}}}, doi = {{https://doi.org/10.48447/BR-2025-490}}, year = {{2025}}, } @article{65004, author = {{Knaup, Felix and Brüning, Florian}}, journal = {{Extrusion}}, keywords = {{Aufschmelzen, extrusion, Messtechnik}}, pages = {{28–33}}, title = {{{Vergleich experimenteller Methoden zur Untersuchung des Aufschmelzprozesses in Einschneckenextrudern}}}, year = {{2025}}, } @inproceedings{61103, abstract = {{Verification planning for engineering complex systems lacks a systematic procedure for creating test scenarios. Test scenarios can be generated by combining test cases, or by integrating test cases into pre-specified scenarios. Based on a systematic literature analysis a method is developed to simplify verification planning by creating new test scenarios and enriching existing ones. To assist the V&V engineer in planning test scenarios, a catalogue of combination premises is created to support the method. The method is evaluated in the development of a platform for emergency management. Evaluation proves that the method makes modelling of test scenarios more efficient.}}, author = {{Gräßler, Iris and Ebel, Marcel and Pottebaum, Jens}}, booktitle = {{Procedia CIRP}}, issn = {{2212-8271}}, keywords = {{Systems Engineering, test scenario creation, verification, customer involvement}}, location = {{Patras, Greece}}, pages = {{213--218}}, publisher = {{Elsevier BV}}, title = {{{Method for systematic creation of test scenarios for early customer involvement}}}, doi = {{https://doi.org/10.1016/j.procir.2025.08.038}}, volume = {{136}}, year = {{2025}}, } @inproceedings{62149, abstract = {{The increasing complexity of technical systems requires early, structured verification and validation (V&V). Existing metadata models only map parts of the engineering process and do not enable a continuous chain of effects from requirements to test results. The aim of this publication is to develop a holistic V&V metadata model for the consistent, transparent and machine-processable description and linking of relevant engineering artifacts. In a five-stage research approach, essential model components are derived from literature and are integrated into a holistic model. Initial applications as part of a European research project show the potential of the model for a well-founded effect chain analysis and decision-supporting V&V processes.}}, author = {{Gräßler, Iris and Ebel, Marcel}}, booktitle = {{DS 140: Proceedings of the 36th Symposium Design for X (DFX2025)}}, keywords = {{verification, metadata model, Systems Engineering}}, location = {{Hamburg}}, publisher = {{The Design Society}}, title = {{{Ganzheitliches Metadatenmodel für die Verifikation und Validierung in der Entwicklung komplexer technischer Systeme}}}, doi = {{10.35199/dfx2025.09}}, year = {{2025}}, } @inproceedings{65231, author = {{Charalampakis, Konstantinos and Safranoglou, Ioannis and Stavroulakis, Alexis and Ebel, Marcel and Gräßler, Iris and Dimelli, Despina and Mania, Katerina}}, booktitle = {{2025 IEEE International Symposium on Mixed and Augmented Reality Adjunct (ISMAR-Adjunct)}}, publisher = {{IEEE}}, title = {{{Augmented Reality for Navigation, Team Coordination, and Real-Time Data Visualization in Firefighting Operations}}}, doi = {{10.1109/ismar-adjunct68609.2025.00041}}, year = {{2025}}, } @inproceedings{65213, author = {{Petzke, Jonas Dirk Rudolf Helmut and Schöppner, Volker}}, title = {{{Thermo-Chemical Devulcanization of Sulfur-Cured Styrene-Butadiene Rubber (SBR) Using Diphenyldisulfide (DPDS)}}}, year = {{2025}}, } @inproceedings{65204, author = {{Moritzer, Elmar and Salm, Maximilian Karl Franz}}, booktitle = {{The 40th International Conference of Polymer Processing Society}}, title = {{{Influence of Filler Type and Volume Fraction on the Electrical Conductivity and Shore Hardness of TPU Composites in Fused Filament Fabrication}}}, year = {{2025}}, } @inproceedings{63441, author = {{Moritzer, Elmar and Brandes, Philipp and Wittler, Maurice and Claes, Leander and Wippermann, Mareen and Henning, Bernd}}, booktitle = {{40th International Conference of the Polymer Processing Society}}, keywords = {{Faser-Kunststoff-Verbunde (FKV), Faserverstärkte Kunststoffe (FVK), Organobleche, Ultraschall}}, title = {{{Non-destructive fiber-matrix adhesion measurement of glass fiber reinforced thermoplastic composite laminates using ultrasound}}}, year = {{2025}}, } @inbook{65240, author = {{Petzke, Jonas Dirk Rudolf Helmut and Schmidt, Leon and Kleinschmidt, Dennis and Brüning, Florian}}, booktitle = {{International Rubber Conference (IRC) 2025, Bangkok, BITEC; e-abstract book}}, keywords = {{distributives Mischen, Extrusion, Kautschuk, Stiftextruder}}, pages = {{150–151}}, title = {{{Experimental Analysis of the Mixing Behavior of Ethylene-Propylene-Diene Rubber (EPDM) in a Rubber Pin Extruder under Variation of Process Parameters and Mixing Elements}}}, year = {{2025}}, } @inbook{65238, author = {{Damanik, Hogenrich and Fatima, Arooj and Turek, Stefan and Petzke, Jonas Dirk Rudolf Helmut and Kleinschmidt, Dennis and Brüning, Florian}}, booktitle = {{International Rubber Conference (IRC) 2025, Bangkok, BITEC; e-abstract book}}, keywords = {{CFD simulation, Materialmodellierung, Phan-Thien-Tanner, PTT, Simulation}}, pages = {{266–268}}, title = {{{Numerical modeling of the non-isothermal viscoelastic flow behavior of rubber compounds based on the PHAN-THİEN-TANNER (PTT) model}}}, year = {{2025}}, } @inbook{65239, author = {{Petzke, Jonas Dirk Rudolf Helmut and Kleinschmidt, Dennis and Brüning, Florian}}, booktitle = {{International Rubber Conference (IRC) 2025, Bangkok, BITEC; e-abstract book}}, keywords = {{Devulkanisation, Kautschuk, Recycling}}, pages = {{185–186}}, title = {{{Thermo-Chemical Devulcanization of Sulfur-cured Styrene-Butadiene Rubber (SBR) Using Diphenyldisulfide (DPDS)}}}, year = {{2025}}, } @article{65241, author = {{Rempel, Timm and Brüning, Florian}}, journal = {{ANTEC}}, title = {{{Investigations into the specific throughput stability of conical feed zones over the rotation speed during the direct processing of polypropylene regrind}}}, year = {{2025}}, } @inproceedings{65245, author = {{Petzke, Jonas Dirk Rudolf Helmut}}, title = {{{Devulcanization behavior of SBR-based GTR compounds}}}, year = {{2025}}, } @book{61118, abstract = {{Im Zuge der Digitalisierung erfahren maschinelles Lernen und datengetriebene Methoden derzeit eine große Aufmerksamkeit in Wissenschaft und Industrie. Es fehlt jedoch an Grundlagenwissen und Verständnis, wie die datengetriebenen Methoden der Informatik mit bewährten modellbasierten Ingenieursmethoden wie dem modellbasierten Entwurf in der Mechatronik und Methoden der Regelungstechnik sinnvoll kombiniert werden können, um hybride Modelle zu erhalten. Diese ingenieurwissenschaftlichen Methoden basieren auf physikalischen Verhaltensmodellen, die eine besonders verdichtete und interpretierbare Darstellung von Wissen darstellen und insbesondere kausale Zusammenhänge beschreiben. Für spezifische regelungstechnische Anwendungen gibt es umfangreiches Vorwissen in Form von bekannten Strukturen und Informationen, wie z.B. (Teil-)Modelle oder Parametersätze, die auch bei der Anwendung von Methoden wie dem maschinellen Lernen genutzt werden sollten. Eine solche sinnvolle systematische Verknüpfung ist wissenschaftlich, insbesondere im Hinblick auf die industrielle Anwendung, noch nicht ausreichend untersucht worden und sehr vielversprechend. In diesem Beitrag werden die Ergebnisse der Nachwuchsforschungsgruppe DART – Datengetriebene Methoden in der Regelungstechnik vorgestellt. Das Hauptziel war es, die synergetische Kombination von modell- und datengetriebenen Methoden für regelungstechnische Aufgaben zu erforschen und es werden alle wichtigen Forschungsergebnisse aber auch die verwendeten Grundprinzipien des maschinellen Lernens in diesem Beitrag dargestellt.}}, author = {{Timmermann, Julia and Götte, Ricarda-Samantha and Junker, Annika and Hesse, Michael and Schwarzer, Luis}}, publisher = {{HNI Verlagsschriftenreihe}}, title = {{{DART - Datengetriebene Methoden in der Regelungstechnik}}}, doi = {{10.17619/UNIPB/1-2305}}, volume = {{Band 430}}, year = {{2025}}, }