@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}},
}
@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{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}},
}
@inproceedings{59894,
abstract = {{Abstract. This study presents intrinsic lubrication as a novel approach to deep drawing processes, using additively manufactured, lubricant-permeable tools to minimize lubricant consumption and improve efficiency. Two systems were evaluated: a passive system based on capillary action and gravity, and an active system using pumped delivery for precise, on-demand application. Experimental tests were conducted on micro-bores (0.2-0.5 mm) to demonstrate their suitability for lubricant transport. Smaller bores have excellent capillary action but are prone to clogging, while larger bores offer higher permeability. The passive system is resource-efficient but requires adjustments to counteract gravitational asymmetry. The active system provides consistent lubricant distribution but is more complex. These findings provide a basis for optimizing intrinsic lubrication systems.}},
author = {{Cakici, Ermir and Homberg, Werner}},
booktitle = {{Materials Research Proceedings}},
issn = {{2474-395X}},
location = {{Paestum, Italien}},
publisher = {{Materials Research Forum LLC}},
title = {{{Intrinsic lubrication: A new approach in the context of the deep drawing process}}},
doi = {{10.21741/9781644903599-122}},
volume = {{54}},
year = {{2025}},
}
@phdthesis{50530,
abstract = {{Die Extrusion stellt das mengenmäßig dominante Verarbeitungsverfahren für thermoplastische Kunststoffe dar. Daher gibt es starke Bestrebungen in diesem Bereich hin zu einer höheren Wirtschaftlichkeit, welche beispielsweise durch höheren Massedurchsatz bei gleichbleibender Maschinengröße erreicht werden kann, oder aber auch im Hinblick auf eine Kreislaufwirtschaft die Bestrebung hin zu einer materialschonenden Verarbeitung. Beide Bestrebungen erfordern spezielle Schneckenkonzepte. Hierunter fallenWave- Schnecken, welche in beiden Bereichen ein vorteilhaftes Prozessverhalten aufzeigen sollen. Die Auslegung von Wave-Schnecken erfordert jedoch ein stärkeres Verständnis über das geometrieabhängige Prozessverhalten in der Extrusion.
Im Rahmen der Dissertation werden zwei Themengebiete angegangen. Das erste Thema ist die Herleitung einer Methode zur Charakterisierung des Abbauverhaltens von Thermoplasten sowie die Nutzung der Charakterisierung als Vorhersagemodell. Das zweite Thema behandelt die Auslegung von Wave-Schnecken basierend auf numerischen Simulationen samt Validierung anhand von sieben Energy-Transfer-Schnecken im Vergleich zu drei konventionellen Schnecken. Hierbei werden unter anderem der Materialabbau, die thermische und die stoffliche Homogenität betrachtet, um ein umfassendes Bild über das Prozessverhalten der Schnecken zu schaffen. Die vorgestellten Untersuchungen dienen schlussendlich zu einer Bestätigung des vorteilhaften Prozessverhaltens von Wave-Schnecken.}},
author = {{Schall, Christoph Wilhelm Theodor}},
isbn = {{978-3-8440-9334-6}},
pages = {{224}},
publisher = {{Shaker Verlag}},
title = {{{Materialschonende Verarbeitung von Thermoplasten auf Wave-Schnecken}}},
volume = {{Band 2/2024}},
year = {{2024}},
}
@phdthesis{51732,
author = {{Richters, Maximilian}},
title = {{{Herstellung und Charakterisierung von Wood-Plastic-Composites (WPC) mit einer Matrix aus thermoplastischen Polyurethanen zur Erzeugung einer Holz-WPC-Verbundstruktur }}},
year = {{2024}},
}
@article{52217,
abstract = {{AbstractPolycarbonate (PC) is an amorphous polymer that is an extremely robust material with a high tenacity, and thus suitable for a lightweight construction with glass‐like transparency. Due to these advantageous properties, PC is often used in industry for example in medical devices, automotive headlamps, sporting equipment, electronics, and a variety of other products. PC is often subjected to uniaxial and biaxial loading conditions. Therefore, reliable material models have to take into account the various resulting experimental effects. For those reasons, we investigate PC specimens under uniaxial and biaxial loading by using different stretch rates and loading scenarios. In addition to that, we propose methods for optical measurement of local stretches to obtain the approximated local true stress. In future work, the displacement fields and the resulting reaction forces will be used for parameter identification of constitutive equations.}},
author = {{Hamdoun, Ayoub and Mahnken, Rolf}},
issn = {{1617-7061}},
journal = {{PAMM}},
keywords = {{Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics}},
publisher = {{Wiley}},
title = {{{Experimental investigations of uniaxial and biaxial cold stretching within PC‐films and bars using optical measurements}}},
doi = {{10.1002/pamm.202300114}},
year = {{2024}},
}
@article{52218,
author = {{Lenz, Peter and Mahnken, Rolf}},
issn = {{0020-7683}},
journal = {{International Journal of Solids and Structures}},
keywords = {{Applied Mathematics, Mechanical Engineering, Mechanics of Materials, Condensed Matter Physics, General Materials Science, Modeling and Simulation}},
publisher = {{Elsevier BV}},
title = {{{Multiscale simulation of polymer curing of composites combined mean-field homogenisation methods at large strains}}},
doi = {{10.1016/j.ijsolstr.2023.112642}},
volume = {{290}},
year = {{2024}},
}
@phdthesis{52404,
author = {{Flachmann, Felix}},
isbn = {{978-3-8440-9432-9}},
pages = {{140}},
publisher = {{Shaker Verlag}},
title = {{{Untersuchung des Füllverhaltens holzfaserverstärkter Kunststoffe (WPC) mit hohen Füllstoffgehalten}}},
volume = {{Band 4}},
year = {{2024}},
}