This picture showsArndt Wagner

Dr.-Ing.

Arndt Wagner

Academic Senior Councilor
Institute of Applied Mechanics (CE)
Chair of Continuum Mechanics

Contact

+49 711 685-66375
+49 711 685-66347

Pfaffenwaldring 7
70569 Stuttgart
Germany
Room: 3.106

Office Hours

by arrangement

Subject

Kontinuumsmechanik und Materialtheorie
  • Nichtlineare Kontinuumsthermodynamik
  • Erweiterte Kontinuumsmechanik von mehrkomponentigen Materialien im Rahmen der Theorie Poröser Medien (TPM)
Kontinuumsbiomechanik
  • Theoretische Beschreibung von gekoppelten Deformations-, Strömungs- und Diffusionsprozessen in biologischen Geweben unter Verwendung der TPM
  • Einbeziehung und Auswertung von (patienten-spezifischen) medizinischen Bilddaten (z.B. DTI, MRI)
Numerik und Simulation
  • Monolithische Lösungsstrategien für gekoppelte Probleme unter Verwendung von gemischten Finite-Element(FE)-Methoden
  • Implementierung von Materialmodellen in das institutseigene FE-Programmpaket PANDAS
 
  1. 2020

    1. Ehlers, W., & Wagner, A. (2020). Coupled problems in biological systems. In H. Altenbach & A. Öchsner (Eds.), Encyclopedia of Continuum Mechanics (pp. 453–465). Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-55771-6_32
  2. 2019

    1. Ehlers, W., & Wagner, A. (2019). Modelling and simulation methods applied to coupled problems in porous-media mechanics. Archive of Applied Mechanics, 89(4), 609--628. https://doi.org/10.1007/s00419-019-01520-5
    2. Eurich, L., Shahmoradi, S., Wagner, A., Borja, R., & Ehlers, W. (2019). Simulating plant-cell dehydration using a double-porosity formulation based on the Theory of Porous Media. Proceedings in Applied Mathematics and Mechanics, 19, e201900243.
    3. Schröder, P., Wagner, A., Stöhr, D., Rehm, M., & Ehlers, W. (2019). Continuum-mechanical modelling of apoptosis. Proceedings in Applied Mathematics and Mechanics, 19, e201900310.
    4. Trivedi, Z., Bleiler, C., Wagner, A., & Röhrle, O. (2019). A parametric permeability study for a simplified vertebra based on regular microstructures. Proceedings in Applied Mathematics and Mechanics, 19, e201900383.
  3. 2018

    1. Schröder, P., Wagner, A., Stöhr, D., Rehm, M., Jensch, A., Radde, N., & Ehlers, W. (2018). Modelling of lung-metastases apoptosis within brain tissue. Proceedings in Applied Mathematics and Mechanics, 18, e201800323.
    2. Ehlers, W., & Wagner, A. (2018). Multiscale Aspects in the Multiphasic Modelling of Human Brain Tissue. In P. Wriggers & T. Lenarz (Eds.), Biomedical Technology (Vol. 84, pp. 3--13). Springer, Cham. https://doi.org/10.1007/978-3-319-59548-1_1
    3. Eurich, L., Wagner, A., & Ehlers, W. (2018). Coupled mass interactions in plant tissues under frost conditions. Proceedings in Applied Mathematics and Mechanics, 18, e201800143.
    4. Wagner, A., Fink, D., & Ehlers, W. (2018). Efficient numerical simulations of drug delivery in multi-component brain tissue. Proceedings in Applied Mathematics and Mechanics, 18, e201800127.
    5. Fink, D., Wagner, A., & Ehlers, W. (2018). Application-driven model reduction for the simulation of therapeutic infusion processes in multi-component brain tissue. Journal of Computational Science, 24, 101--115. https://doi.org/10.1016/j.jocs.2017.10.002
  4. 2017

    1. Schott, R., Eurich, L., Wagner, A., Roth-Nebelsick, A., & Ehlers, W. (2017). Gefrieren - aber richtig. In J. Knippers, U. Schmid, & T. Speck (Eds.), Baubionik - Biologie beflügelt Architektur, Stuttgarter Beiträge zur Naturkunde (Vol. 82, pp. 62–71). Naturkundemuseum Stuttgart.
    2. Eurich, L., Wagner, A., & Ehlers, W. (2017). A new material description for plant tissues under frost exposure. In M. Papadrakakis, E. Onate, & B. Schrefler (Eds.), Proceedings of the VII International Conference on Coupled Problems in Science and Engineering (pp. 275–286).
    3. Schröder, P., Wagner, A., Stöhr, D., Rehm, M., & Ehlers, W. (2017). Variation of different growth descriptions in a metastatic proliferation model. In M. von Scheven, M.-A. Keip, & N. Karajan (Eds.), Proceedings of the 7th GACM Colloquium on Computational Mechanics (pp. 259–262).
    4. Eurich, L., Wagner, A., & Ehlers, W. (2017). Modelling functional properties of frost-resistant plant tissues for transfer to construction materials. In M. von Scheven, M.-A. Keip, & N. Karajan (Eds.), Proceedings of the 7th GACM Colloquium on Computational Mechanics (pp. 238–241).
    5. Schröder, P., Wagner, A., Stöhr, D., Rehm, M., & Ehlers, W. (2017). Data-driven simulation of metastatic processes within brain tissue. Proceedings in Applied Mathematics and Mechanics, 17, 221--222.
    6. Eurich, L., Wagner, A., & Ehlers, W. (2017). Numerical realisation of freezing processes in frost-resistant plant tissues. Proceedings in Applied Mathematics and Mechanics, 17, 185--186.
    7. Wagner, A., Fink, D., Schröder, P., & Ehlers, W. (2017). Towards a virtual mechanical human brain. Proceedings in Applied Mathematics and Mechanics, 17, 225--226.
  5. 2016

    1. Ehlers, W., & Wagner, A. (2016). Simulation technology applied to coupled problems in continuum mechanics. In A. Zingoni (Ed.), Insights and Innovations in Structural Engineering, Mechanics and Computation (pp. 378–381). Taylor & Francis Group.
    2. Ehlers, W., & Wagner, A. (2016). Die Bedeutung der Mechanik für die Gesellschaft: gestern heute und morgen. Österreichische Ingenieur- Und Architekten-Zeitschrift (OIAZ), 161, 167–171.
    3. Schröder, P., Wagner, A., & Ehlers, W. (2016). Multi-component modelling and simulation of metastases proliferation within brain tissue. Proceedings in Applied Mathematics and Mechanics, 16, 101--102.
    4. Eurich, L., Schott, R., Wagner, A., Roth-Nebelsick, A., & Ehlers, W. (2016). Fundamentals of heat and mass transport in frost-resistant plant tissues. In J. Knippers, K. Nickel, & T. Speck (Eds.), Biomimetic Research for Architecture and Building Construction (pp. 97--108). Springer, Cham. https://doi.org/10.1007/978-3-319-46374-2_6
    5. Eurich, L., Schott, R., Wagner, A., Roth-Nebelsick, A., & Ehlers, W. (2016). From functional properties of frost-resistant plant tissues towards customised construction materials-A continuum-mechanical approach. Proceedings in Applied Mathematics and Mechanics, 16, 81--82.
  6. 2015

    1. Bleiler, C., Wagner, A., Stadelmann, V. A., Windolf, M., Köstler, H., Boger, A., Gueorguiev-Rüegg, B., Ehlers, W., & Röhrle, O. (2015). Multiphasic modelling of bone-cement injection into vertebral cancellous bone. International Journal for Numerical Methods in Biomedical Engineering, 31, 37--57. https://doi.org/10.1002/cnm.2696
    2. Ehlers, W., & Wagner, A. (2015). Multi-component modelling of human brain tissue: a contribution to the constitutive and computational description of deformation, flow and diffusion processes with application to the invasive drug-delivery problem. Computer Methods in Biomechanics and Biomedical Engineering, 18(8), 861--879. https://doi.org/10.1080/10255842.2013.853754
    3. Wagner, A., & Ehlers, W. (2015). Theoretical and numerical aspects in the multiphasic modelling of human brain tissue. Proceedings in Applied Mathematics and Mechanics, 15, 117--118.
    4. Schröder, P., Wagner, A., & Ehlers, W. (2015). Towards the continuum-mechanical modelling of metastatic tumour growth in the brain. Proceedings in Applied Mathematics and Mechanics, 15, 107--108.
  7. 2014

    1. Wagner, A. (2014). Extended modelling of the multiphasic human brain tissue with application to drug-infusion processes. Dissertation thesis, University of Stuttgart.
    2. Bleiler, C., Wagner, A., Stadelmann, V., Windolf, M., Gueorguiev-Rüegg, B., Köstler, H., Boger, A., Ehlers, W., & Röhrle, O. (2014). Multiphasic Modelling of the Vertebral Bone for Cement-Injection Studies. Proceedings in Applied Mathematics and Mechanics, 14, 117--118.
    3. Wagner, A., & Ehlers, W. (2014). On the multi-component modelling of human brain tissue to survey clinical interventions. Proceedings in Applied Mathematics and Mechanics, 14, 125--126.
  8. 2013

    1. Ehlers, W., & Wagner, A. (2013). Constitutive and computational aspects in tumor therapies of multiphasic brain tissue. In G. Holzapfel & E. Kuhl (Eds.), Computer Models in Biomechanics (pp. 263--276). Springer, Dordrecht. https://doi.org/10.1007/978-94-007-5464-5_19
    2. Wagner, A., Bleiler, C., Stadelmann, V., Windolf, M., Gueorguiev-Rüegg, B., Köstler, H., Boger, A., Röhrle, O., & Ehlers, W. (2013). Porous-media simulation of bone-cement spreading during vertebroplasty. Proceedings in Applied Mathematics and Mechanics, 13, 67--68.
  9. 2012

    1. Ehlers, W., & Wagner, A. (2012). Multiphasic Modelling of Human Brain Tissue with Application to Convection-Enhanced Delivery of Therapeutics. In W. Ehlers & B. Markert (Eds.), Proceedings of the 3rd GAMM Seminar on Continuum Biomechanics (pp. 17–38).
    2. Wagner, A., & Ehlers, W. (2012). Multiphasic modelling of human brain tissue for intracranial drug-infusion studies. Proceedings in Applied Mathematics and Mechanics, 12, 107--110.
  10. 2011

    1. Wagner, A., & Ehlers, W. (2011). Computational modelling of drug infusion into the anisotropic white-matter tracts of the human brain. Proceedings in Applied Mathematics and Mechanics, 11, 133--134.
  11. 2010

    1. Wagner, A., & Ehlers, W. (2010). Continuum-Mechanical Analysis of Human Brain Tissue. Proceedings in Applied Mathematics and Mechanics, 10, 99--100.
  12. 2008

    1. Wagner, A., & Ehlers, W. (2008). A porous media model to describe the behaviour of brain tissue. Proceedings in Applied Mathematics and Mechanics, 8, 10201--10202.
Current Teaching (ST 2020):
  • Höhere Mechanik II: Numerische Methoden der Mechanik
  • Einführung in die Kontinuumsmechanik von Mehrphasenmaterialien
Teaching Repository:
  • Technische Mechanik II
  • Technische Grundlagen III: Einführung in die Technische Mechanik
  • Erdbebenbeanspruchung von Bauwerken
  • Erdbebensicheres Bauen
  • Einführung in die Kontinuumsmechanik von Mehrphasenmaterialien
  • Elemente der nichtlinearen Kontinuumsthermodynamik
  • Ausgewählte Kapitel der Strömungsmechanik
Accompanied Teaching (organisation and realisation of tutorials and exercises):
  • Höhere Mechanik IIB - Einführung in die Kontinuumsmechanik von Mehrphasenmaterialien
  • Höhere Mechanik IIA - Elemente der nichtlinearen Kontinuumsthermodynamik
  • Höhere Mechanik IB - Numerische Methoden in der Mechanik
  • Höhere Mechanik IA - Einführung in die Kontinuumsmechanik und in die Materialtheorie
  • Technische Mechanik IV
  • Technische Mechanik III
  • Technische Mechanik II
  • Technische Mechanik I
  • Mechanik der inkompressiblen Fluide
  • Elemente der Technischen Mechanik - Teil 2
  • Elemente der Technischen Mechanik - Teil 1
2000 Higher education entrance qualification (A level)
2000-2001 Community service: agricultural activity 
2001-2006 Studies of Civil Engineering at the University of Stuttgart
2006 Diploma in Civil Engineering (Dipl.-Ing.) at the University of Stuttgart
since 2006 Research Assistant at the University of Stuttgart, Institute of Applied Mechanics (CE), Chair of Continuum Mechanics
2013 Appointment as "Akademischer Rat" at the University of Stuttgart, Institute of Applied Mechanics (CE), Chair of Continuum Mechanics
2014 Doctoral degree (Dr.-Ing.) at the Faculty of Civil and Environmental Engineering, University of Stuttgart
2017 Appointment as "Akademischer Oberrat" at the University of Stuttgart, Institute of Applied Mechanics (CE), Chair of Continuum Mechanics
 
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