Contact
+49 711 685 69258
+49 711 685 66347
Email
Pfaffenwaldring 7
70569 Stuttgart
Germany
Room: 3.164
Office Hours
by appointment
Subject
- Continuum mechanics and continuum thermodynamics
- Multicomponent and multiphasic materials including phase transformation
- Double-porosity models
- Plant biomechanics
- Monolithic solution schemes of coupled problems using the Finite-Element-Method (FEM)
- Implementation of material models into the FE program PANDAS
- 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.
- Schott, R., Eurich, L., Wagner, A., Roth-Nebelsick, A., & Ehlers, W. (2019a). Freezing: the right way. In J. Knippers, U. Schmid, & T. Speck (Eds.), Biomimetics for Architecture – Learning from Nature (pp. 74–83; By J. Knippers, U. Schmid, & T. Speck).
- Schott, R., Eurich, L., Wagner, A., Roth-Nebelsick, A., & Ehlers, W. (2019b). Gefrieren - aber richtig. In J. Knippers, U. Schmid, & T. Speck (Eds.), Bionisch bauen – Von der Natur lernen (pp. 74–83; By J. Knippers, U. Schmid, & T. Speck).
- Eurich, L., Wagner, A., & Ehlers, W. (2018). Coupled mass interactions in plant tissues under frost conditions. Proceedings in Applied Mathematics and Mechanics, 18, e201800143.
- 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 (pp. 62–7 1; By J. Knippers, U. Schmid, & T. Speck). Naturkundemuseum Stuttgart.
- Eurich, L., Wagner, A., & Ehlers, W. (2017a). 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; By M. Papadrakakis, E. Onate, & B. Schrefler). Barcelona.
- Eurich, L., Wagner, A., & Ehlers, W. (2017b). 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; By M. von Scheven, M.-A. Keip, & N. Karajan). Stuttgart.
- Eurich, L., Wagner, A., & Ehlers, W. (2017c). Numerical realisation of freezing processes in frost-resistant plant tissues. Proceedings in Applied Mathematics and Mechanics, 17, 185--186.
- Eurich, L., Schott, R., Wagner, A., Roth-Nebelsick, A., & Ehlers, W. (2016a). 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.
- Eurich, L., Schott, R., Wagner, A., Roth-Nebelsick, A., & Ehlers, W. (2016b). 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; By J. Knippers, K. Nickel, & T. Speck).
2014-today | Research Associate at the University of Stuttgart, Institute of Applied Mechanics (CE), Chair of Continuum Mechanics |
2018 | Research stay at Stanford University |
2012-2014 | Master studies in Mechanical Engineering at ETH Zürich and KTH Stockholm |
2008-2012 | Bachelor studies in Mechanical Engineering at ETH Zürich |
2007 | General qualification for university entrance (A levels) |
- A coupled thermo-hydro-mechanical model with double porosity for plant tissues, 90th GAMM Annual Meeting, Vienna (Austria), 21 February 2019
- A fully coupled thermo-hydro-mechanical model with double porosity for plant tissues, Seminar at Stanford University, Department of Civil and Environmental Engineering, Prof. Borja, Stanford (USA), 15 October 2018
- Interfacial mass transfer in deformable plant tissues, 6th European Conference on Computational Mechanics ECCM 6, Glasgow (UK), 13 June 2018
- Water management in plant tissues during frost-thaw cycles, InterPore 10th Annual Meeting and Jubilee, New Orleans (USA), 16 May 2018
- From thermo-hydro-mechanical modelling towards simulations of plant tissues under frost and condensation conditions, SFB/TRR 141 exhibition finnisage (« baubionik – biologie beflügelt architektur »), Stuttgart (Germany), 4 May 2018
- Modelling functional properties of frost-resistant plant tissues for transfer to construction materials, 7th Colloquium on Computational Mechanics for Young Scientists from Academia and Industry, Stuttgart (Germany), 13 October 2017
- A new material description for plant tissues under frost exposure, 7th International Conference on Coupled Problems in Science and Engineering, Rhodes (Greece), 12 June 2017
- Energetic aspects in the modelling of frost-resistant plant tissues, 88th GAMM Annual Meeting, Weimar (Germany), 9 March 2017
- From functional properties of frost-resistant plant tissues towards customised construction materials: A continuum-mechanical approach, Joint Annual Meeting of GAMM and DMV, Brunswick (Germany), 8 March 2016