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Publikationen

Bücher und Buchbeiträge
  • M. Wagner, Lineare und nichtlineare FEM. Eine Einführung mit Anwendungen in der Umformsimulation mit LS-DYNA, 3. Auflage, Springer Fachmedien Wiesbaden, 2022.
  • L. Gaul, M. Koegl und M. Wagner. Boundary Element Methods for Engineers & Scientists. An Introductory Course with Advanced Topics. Berlin, Heidelberg, New York: Springer-Verlag, 2003. isbn: 3642055893.
  • L. Gaul, M. Wagner und W. Wenzel. „Hybrid boundary element methods in  frequency and time domain“. In: Boundary Elements in Acoustics. Hrsg. von O. von Estorff. International Series on Advances in Boundary Elements. Southampton, Boston: WIT Press, 2000.
Journals und Konferenzbeiträge
  • S. Buchner, M. Wagner und C. Höller. „Inverse Acoustic Characterization of Rigid Porous Media Using Artificial Neural Networks“. In: Proceedings of DAS|DAGA 2025, 51st Annual Meeting on Acoustics, March 17-20, 2025, Copenhagen. 2025, S. 847850. doi: https://doi.org/10.71568/dasdaga2025.142.
  • M. Franke, T. J. Krause und M. Wagner. „Data-Driven Model Order Reduction with Surrogate Elements for Transient Simulations“. In: Engineering Computations (2025), S. 1–26. issn: 0264-4401. doi: 10.1108/EC-06-2024-0511.
  • T. J. Krause, M. Franke, I. Heinle und M. Wagner. „Data Augmentation of Material Properties for Machine Learning in Industrial Production – a Case Study in an Automotive Press Shop“. In: Engineering Computations (2025), S. 1–15. issn: 0264-4401. doi: 10.1108/EC-08-2024-0787.
  • T. Lehrer, P. Stocker, F. Duddeck und M. Wagner. „UCSM: Dataset of U-shaped Parametric CAD Geometries and Real-World Sheet Metal Meshes for Deep Drawing“. In: Computer-Aided Design 188 (2025), S. 103924. issn: 00104485. doi: 10.1016/j.cad.2025.103924.
  • P. Stocker, T. Lehrer, F. Duddeck und M. Wagner. „Face-Wise Prediction of Sheet-Metal Drawability Using Graph Neural Networks“. In: Journal of Physics: Conference Series 3104.1 (2025), S. 012053. issn: 1742-6588. doi: 10.1088/1742-6596/3104/1/012053.
  • C. Hollweck, L. Leidinger, S. Hartmann, M. Wagner und R. Wüchner. „An Analysis of the Critical Time Step Size for Explicit Dynamics Using Trimmed B-splines, LR-splines, and THB-splines“. In: Computer Methods in Applied Mechanics and Engineering 450 (2026), S. 118656. doi: 10.1016/j.cma.2025.118656.
  • T. Lehrer, A. Kaps, I. Lepenies, E. Raponi, M. Wagner und F. Duddeck. „Complementing Drawability Assessment of Deep-Drawn Components With Surrogate-Based Global Sensitivity Analysis“. In: ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part B: Mechanical Engineering 10.3 (2024). issn: 2332-9017. doi: 10.1115/1.4065143.
  • M. Franke und M. Wagner. „Transient surrogate modeling of modally reduced structures with discontinuous loads and damping“. In: Archive of Applied Mechanics 94.6 (2024), S. 1647–1666. issn: 0939-1533. doi: 10.1007/s00419-024-02601-w.
  • A. Kaps, T. Lehrer, I. Lepenies, M. Wagner und F. Duddeck. „Multi-fidelity optimization of metal sheets concerning manufacturability in deep-drawing processes“. In: Structural and Multidisciplinary Optimization 66.8 (2023). issn: 1615-147X. doi: 10 . 1007 / s00158 - 023 - 03631 - 8.
  • T. Lehrer, A. Kaps, I. Lepenies, F. Duddeck und M. Wagner. „2S-ML: A simulation-based classification and regression approach for drawability assessment in deep drawing“. In: International Journal of Material Forming 16.5 (2023). issn: 1960-6206. doi: 10.1007/s12289-023-01770-3.
  • P. Thumann, S. Buchner, S. Marburg und M. Wagner. „A comparative study of Glinka and Neuber approaches for fatigue strength assessment on 42Cr-MoS4–QT specimens“. In: Strain (2023). issn: 0039-2103. doi: 10.1111/str.12470.
  • C. Sittl, S. Marburg und M. Wagner. „Application of a Krylov subspace method for an efficient solution of acoustic transfer functions“. In: Mechanical Systems and Signal Processing 148 (2021), S. 107135. issn: 08883270. doi: 10.1016/j.ymssp.2020.107135.
  • Markus A. Geith, Krzysztof Swidergal, Bernd Hochholdinger, Thomas G. Schratzenstaller, Marcus Wagner und Gerhard A. Holzapfel. „On the importance of modeling balloon folding, pleating, and stent crimping: a FE study comparing experimental inflation tests“. In: International journal for numerical methods in biomedical engineering (2019), e3249. doi: 10.1002/cnm.3249. eprint: 31400057.
  • Philipp Thumann, Steffen Marburg, Josef Meinhardt, Jean–Marc Saubiez, Michael Hoogen, Bertram Suck und Marcus Wagner. „Frequency Dependent Fatigue Strength Investigations on Tempered Steel and Nodular Cast Iron“. In: steel research int. 90.7 (2019), S. 1800620. doi: 10.1002/srin.201800620
  • Krzysztof Swidergal, Christian Lubeseder, Ingo von Wurmb, Arnulf Lipp, Josef Meinhardt, Marcus Wagner und Steffen Marburg. „Experimental and numerical investigation of blankholder’s vibration in a forming tool: a coupled MBS-FEM approach“. In: Production Engineering 9.5-6 (2015), S. 623–634.
  • D. Ledentsov, A. Düster, W. Volk, Marcus Wagner, I. Heinle und E. Rank. „Model adaptivity for industrial application of sheet metal forming simulation“. In: Finite Elements in Analysis and Design 46 (2010), S. 585–600.
  • A. Muthler, A. Düster, W. Volk, Marcus Wagner und E. Rank. „High order thin-walled solid finite elements applied to elastic spring-back computations“. In: Computer Methods in Applied Mechanics and Engineering 195.41-43 (2006), S. 5377–5389.
  • M. Wagner, P. M. Pinsky, A. Oberai und M. Malhotra. „A Krylov subspace projection method for simultaneous solution of Helmholtz problems at multiple frequencies“. In: Computer Methods in Applied Mechanics and Engineering 192.41-42 (2003), S. 4609–4640.
  • M. Wagner, P. M. Pinsky und M. Malhotra. „Application of Padé-via-Lanczos Approximations for Efficient Multi-Frequency Solution of Helmholtz Problems“. In: Journal of the Acoustical Society of America 113.1 (2003), S. 313–319.
  • M. Wagner, P. M. Pinsky und M. Malhotra. „An efficient algorithm for the simultaneous solution of   exterior acoustic problems over a frequency band“. In: Journal of the Acoustical Society of America 110.5(2) (2001), S. 2735
  • L. Gaul, M. Wagner, W. Wenzel und N. A. Dumont. „Numerical treatment of acoustical problems with the hybrid boundary element method“. In: International Journal of Solids and Structures 38.10 – 13 (2001), S. 1871–1888
  • L. Gaul und Marcus Wagner. „Beam response derived from 3d hybrid boundary integral method in elastodynamics“. In: Mechanical Systems and Signal Processing 11(2) (1997), S. 257–268.
Vollständige Liste der Publikationen

Publikationsserver OPUS 4