This image shows Malte von Scheven

Malte von Scheven

Dr.-Ing.

Deputy Head of Institute
Institute for Structural Mechanics

Contact

+49 711 685 66121
+49 711 685 56121

Pfaffenwaldring 7
70569 Stuttgart
Deutschland
Room: 1.005

Vita

  • 1976: Born in Bochum
  • 1996: Abitur at the Gymnasium "Schiller-Schule", Bochum
  • 19961997: civil service in Timmendorfer Strand
  • 19972002: Student of Civil Engineering at the Ruhr-University of Bochum
  • 2002: Diploma (Dipl.-Ing.), Ruhr-Universität Bochum
  • Since 2002: Research associate at the Institute for Structural Mechanics (Institut für Baustatik), University of Stuttgart
  • Since 2006: Deputy head of the Institute for Structural Mechanics (Institut für Baustatik und Baudynamik), University of Stuttgart
  • 2009: Ph.D. (Dr.-Ing.), University of Stuttgart: "Efficient algorithms for Fluid-Structure Interaction"

Research

Publications

Articles in journals

  1. Tkachuk, A., Krake, T., Gade, J., & von Scheven, M. (2023). Efficient Computation of Redundancy Matrices for Moderately Redundant Truss and Frame Structures. Journal of Theoretical, Computational and Applied Mechanics, 11506, Article 11506. https://doi.org/10.46298/jtcam.11056
  2. Krake, T., von Scheven, M., Gade, J., Abdelaal, M., Weiskopf, D., & Bischoff, M. (2022). Efficient Update of Redundancy Matrices for Truss and Frame Structures. Journal of Theoretical, Computational and Applied Mechanics. https://doi.org/10.46298/jtcam.9615
  3. Gade, J., Tkachuk, A., von Scheven, M., & Bischoff, M. (2021). A continuum-mechanical theory of redundancy in elastostatic structures. International Journal of Solids and Structures, 226–227. https://doi.org/10.1016/j.ijsolstr.2021.01.022
  4. von Scheven, M., Ramm, E., & Bischoff, M. (2021). Quantification of the Redundancy Distribution in Truss and Beam Structures. International Journal of Solids and Structures, 213, 41–49. https://doi.org/10.1016/j.ijsolstr.2020.11.002
  5. Geiger, F., Gade, J., von Scheven, M., & Bischoff, M. (2020). A Case Study on Design and Optimization of Adaptive Civil Structures. Frontiers in Built Environment, 6, 94. https://doi.org/10.3389/fbuil.2020.00094
  6. Grun, T. B., von Scheven, M., Bischoff, M., & Nebelsick, J. H. (2018). Structural stress response of segmented natural shells: a numerical case study on the clypeasteroid echinoid Echinocyamus pusillus. Journal of the Royal Society Interface, 15. https://doi.org/10.1098/rsif.2018.0164
  7. Wagner, J. L., Gade, J., Heidingsfeld, M., Geiger, F., von Scheven, M., Böhm, M., Bischoff, M., & Sawodny, O. (2018). On steady-state disturbance compensability for actuator placement in adaptive structures. at – Automatisierungstechnik, 66, 591–603. https://doi.org/10.1515/auto-2017-0099
  8. von Scheven, M., & Ramm, E. (2011). Strong Coupling Schemes for Interaction of Thin-walled Structures and Incompressible Flows. International Journal for Numerical Methods in Engineering, 87, 214–231. https://doi.org/10.1002/nme.3033
  9. Grasberger, S., Neumann, M., & Meschke, G. (2003). Computational durability mechanics of concrete structures and numerical simulations of tunnel linings. Bauingenieur, 09, 411.

Articles in proceedings

  1. Forster, D., von Scheven, M., & Bischoff, M. (2024). Alternative Beurteilung von Tragwerken mit Hilfe der Redundanzmatrix. In B. Oesterle, A. Bögle, W. Weber, & L. Striefler (Eds.), Berichte der Fachtagung Baustatik – Baupraxis 15, 04. und 05. März 2024, Hamburg (pp. 67--74). https://doi.org/10.15480/882.9247
  2. Krauß, L.-M., Maierhofer, M., Prokosch, T., Trautwein, A., von Scheven, M., Menges, A., & Bischoff, M. (2024). Baustatische Methoden für Entwurf, Auslegung und Betrieb adaptiver Tragwerke. In B. Oesterle, A. Bögle, W. Weber, & L. Striefler (Eds.), Berichte der Fachtagung Baustatik – Baupraxis 15, 04. und 05. März 2024, Hamburg (pp. 101--108). https://doi.org/10.15480/882.9247
  3. Forster, D., Kannenberg, F., von Scheven, M., Menges, A., & Bischoff, M. (2023). Design and Optimization of Beam and Truss Structures Using Alternative Performance Indicators Based on the Redundancy Matrix. In K. Dörfler, J. Knippers, A. Menges, S. Parascho, H. Pottmann, & T. Wortmann (Eds.), Advances in Architectural Geometry 2023 (pp. 455--466). De Gruyter. https://doi.org/10.1515/9783111162683-034
  4. Krauß, L.-M., von Scheven, M., & Bischoff, M. (2023). Combining the redundancy concept and vibration control for actuator placement in adaptive structures. X ECCOMAS Thematic Conference on Smart Structures and Materials, SMART 2023, Patras, Greece. https://doi.org/10.7712/150123.9826.444394
  5. Geiger, F., Gade, J., von Scheven, M., & Bischoff, M. (2020). Optimal Design of Adaptive Structures vs. Optimal Adaption of Structural Design. IFAC-PapersOnLine, 53(2), 8363--8369. https://doi.org/10.1016/j.ifacol.2020.12.1604
  6. Geiger, F., Gade, J., von Scheven, M., & Bischoff, M. (2020). Anwendung der Redundanzmatrix bei der Bewertung adaptiver Strukturen. Manfred Bischoff, Malte von Scheven, Bastian Oesterle (Hrsg.) Berichte der Fachtagung Baustatik – Baupraxis 14, 23. und 24. März 2020, Universität Stuttgart, 119–128. https://doi.org/10.18419/opus-10762
  7. Grun, T. B., von Scheven, M., Bischoff, M., & Nebelsick, J. H. (2017). Clypeaster under Pressure: Strengthening Structures and Virtual Modulations of an Echinoids Test. Proc of the GSA Annual Meeting in Seattle, Washington, USA. https://doi.org/10.1130/abs/2017AM-293682
  8. Ramm, E., von Scheven, M., Förster, C., & Wall, W. A. (2009). Interaction of Incompressible Flows and Thin-Walled Structures. ECCOMAS Multidisciplinary Jubilee Symposium. New Computational Challenges in Materials, Structures, and Fluids., ( J. Eberhardsteiner, Ch. Hellmich, H. Mang, J. Périaux, eds.), Springer, 219–233.
  9. Ramm, E., von Scheven, M., Förster, C., & Wall, W. A. (2008). Thin-walled Structures Interacting with Incompressible Flows. Proc. 6th Intern. Conf. on Computation of Shell and Spatial Structures IASS-IACM 2008: “Spanning Nano to Mega” 28-31 May 2008, Ithaca, NY, USA John F. ABEL and J. Robert COOKE (eds.).
  10. Tiyyagura, S. R., & von Scheven, M. (2007). FSI Simulations on Vector Systems - Development of a Linear Iterative Solver (BLIS). in M. Resch, S. Roller, P. Lammers, T. Furui, M. Galle, W. Bez (eds.), “High Performance Computing on Vector Systems 2007”, Springer, 167–177.
  11. von Scheven, M., Tiyyagura, S. R., Ramm, E., & Bischoff, M. (2007). Efficiency Issues of Partitioned Solution in Fluid-Structure Interaction. Extended Abstract in Proc. of International Conf. on Computational Methods for Coupled Problems in Science and Engineering, Santa Eulalia, Ibiza, Spain, Mai 21-23.
  12. Förster, C., Genkinger, S., Neumann, M., Wall, W. A., & Ramm, E. (2006). Fluid-Structure Interaction of Incompressible Flows and Slender Structures. Multifield Problems in Solid and Fluid Mechanics, (Helmig, R., Mielke, A., Wohlmuth, B.I., eds.), Vol. 28, LNACM Series, Springer.
  13. Neumann, M., Küttler, U., Tiyyagura, S. R., Wall, W. A., & Ramm, E. (2006). Computational Efficiency of Parallel Unstructured Finite Element Simulations. in M. Resch, T. Bönisch, K. Benkert, T. Furui, Y. Seo, W. Bez (eds.), “High Performance Computing on Vector Systems. Proceedings of the High Performance Computing Center Stuttgart, March” Springer.
  14. Neumann, M., Tiyyagura, S. R., Wall, W. A., & Ramm, E. (2006). Robustness and Efficiency Aspects for Computational Fluid Structure Interaction. in E. Krause, Y.I. Shokin, M. Resch, N. Shokina (eds.), “Computational Science and High Performance Computing II. The 2nd Russian-German Advanced Research Workshop, Stuttgart, Germany, March 14 to 16”, Series: Notes on Numerical Fluid Mechanics and Multidisciplinary Design (NNFM), 91, Springer.
  15. Ramm, E., Förster, C., Neumann, M., & Wall, W. A. (2006). Interaction of Shells and Membranes with Incompressible Flows. Proc. of 3rd Europ. Conf. on Comp. Mech., Lisbon 2006, “Solids, Structures and Coupled Problems in Engineering”, (eds. C.A. Mota-Soares et al.), Springer, 459–476.
  16. Neumann, M., Tiyyagura, S. R., Wall, W. A., & Ramm, E. (2005). Efficiency Aspects for Advanced Fluid Finite Element Formulations. Extended Abstract in Proc. of Fifth International Conference on Computation of Shell and Spatial Structures, Salzburg, Austria, June 1-4.

Chapters in collections

  1. Grun, T. B., von Scheven, M., Geiger, F., Schwinn, T., Sonntag, D., Bischoff, M., Menges, A., & Nebelsick, J. H. (2017). Bauprinzipien und Strukturdesign von Seeigeln - Vorbilder für bioinspirierte Konstruktionen. In J. Knippers, U. Schmid & T. Speck (eds.), Baubionik – Biologie beflügelt Architektur, 30 – 39. Stuttgarter Beiträge zur Naturkunde, Serie C, Band 82, Staatliches Museum für Naturkunde Stuttgart.
  2. Grun, T. B., Koohi Fayegh Dehkordi, L., Schwinn, T., Sonntag, D., von Scheven, M., Bischoff, M., Knippers, J., Menges, A., & Nebelsick, J. H. (2016). The Skeleton of the Sand Dollar as a Biological Role Model for Segmented Shells in Building Construction: A Research Review. In Jan Knippers, Klaus G. Nickel, Thomas Speck (Eds.). Biomimetic Research for Architecture and Building Construction. Volume 8 of the series Biologically-Inspired Systems. Springer (pp. 217–242). https://doi.org/10.1007/978-3-319-46374-2_11
  3. Paul, D., Koohi Fayegh Dehkordi, L., von Scheven, M., Bischoff, M., & Radde, N. (2016). Structural Design with Biological Methods: Optimality, Multi-functionality and Robustness (pp. 341–360). In: Jan Knippers, Klaus G. Nickel, Thomas Speck (Eds.). Biomimetic Research for Architecture and Building Construction. Volume 8 of the series Biologically-Inspired Systems. Springer. https://doi.org/10.1007/978-3-319-46374-2_17
  4. Paul, D., Koohi Fayegh Dehkordi, L., von Scheven, M., Bischoff, M., & Radde, N. (2016). Structural Design with Biological Methods: Optimality, Multi-functionality and Robustness. In Jan Knippers, Klaus G. Nickel, Thomas Speck (Eds.). Biomimetic Research for Architecture and Building Construction. Volume 8 of the series Biologically-Inspired Systems. Springer (pp. 341–360). https://doi.org/10.1007/978-3-319-46374-2_17

Collections as Editor

  1. Bischoff, M., von Scheven, M., & Oesterle, B. (Eds.). (2020). Berichte der Fachtagung Baustatik – Baupraxis 14. 23. und 24. März 2020, Institut für Baustatik und Baudynamik, Universität Stuttgart. https://doi.org/10.18419/opus-10762

Doctoral Thesis

  1. von Scheven, M. (2009). Effiziente Algorithmen für die Fluid-Struktur-Wechselwirkung. Doktorarbeit, Bericht Nr. 52, Institut für Baustatik und Baudynamik, Universität Stuttgart. https://doi.org/10.18419/opus-306

Diploma Thesis

  1. Neumann, M. (2002). 3D Materialmodellierung von Beton unter Berücksichtigung gekoppelter thermischer und hygrischer Einflüsse. Diplomarbeit. Lehrstuhl für Statik und Dynamik, Ruhr-Universität Bochum.

Presentations

Malte von Scheven, David Forster, Manfred Bischoff. The Redundancy Matrix as an Alternative Measure for the Assessment of Structures. 10th GACM Colloquium on Computational Mechanics (GACM 2023), Vienna, Austria, September 10–13, 2023.

Malte von Scheven, Florian Geiger, Jan Gade, Ekkehard Ramm, Manfred Bischoff.The Redundancy Matrix as an Alternative Measure for the Assessment of Adaptive Structures. 8th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS Congress 2022), Oslo, Norway, June 5–9, 2022.

Malte von Scheven, Florian Geiger, Jan Gade, Ekkehard Ramm, Manfred Bischoff. Redundancy Distribution in Structures . GAMM 2019, 90th Annual Meeting of the International Association of Applied Mathematics and Mechanics, Vienna, Austria, February 20–24, 2019.

Malte von Scheven, Florian Geiger, Ekkehard Ramm, Manfred Bischoff. The Redundancy Matrix as an Alternative Measure for the Assessment of Structures. Form and Force Joint International Conference: 60th IASS Symposium and 8th Structural Membranes, Barcelona, Spain, October 7–10, 2019.

Malte von Scheven, Ekkehard Ramm, Manfred Bischoff. Redundancy Distribution and Adaptive Structures. 6th European Conference on Computational Mechanics (ECCM - ECFD 2018), Glasgow, UK, 11–15 June 2018.

Malte von Scheven, Ekkehard Ramm, Manfred Bischoff. Redundancy Distribution and Adaptive Structures. 13th World Congress in Computational Mechanics (WCCM 2018), New York City, USA, 22–27 June 2018.

Malte von Scheven, Florian Geiger, Jan Gade, Julia Laura Wagner, Oliver Sawodny, Manfred Bischoff. Actuator Placement in Adaptive Structures – Redundancy Distribution vs. Disturbance Compensability. First International Conference on Mechanics of Advanced Materials and Structures (ICMAMS 2018), Torino, Italy, 17–20 June 2018.

Malte von Scheven, Ekkehard Ramm, Manfred Bischoff. Redundancy Distribution and Adaptive Structures. European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2016), Crete Island, Greece, 5–10 June 2016.

Malte von Scheven, Charlotte Bofinger, Manfred Bischoff. Optimal Placement of Actuators Based on Load Carrying Behavior. 7th ECCOMAS Thematic Conference on Smart Structures and Materials (SMART 2015), Ponta Delgada, Portugal, 3–6 June 2015.

Malte von Scheven, Charlotte Bofinger, Manfred Bischoff. Redundanzanteile und adaptive Tragwerke. Baustatik-Baupraxis Forschungskolloquium 2015, Döllnsee/Brandenburg, 15.–19. September 2015.

Malte von Scheven, Annika Sorg, Manfred Bischoff. Adaptive modelling of evolving discontinuities with smooth transition between discrete and continuous methods. 11th World Congress on Computational Mechanics (WCCM XI - ECCM V - ECFD VI), Barcelona, Spain, 20–25 July 2014.

Malte von Scheven, Stefan Spreng, Manfred Bischoff. Identification of Static Equilibrium Points by Optimization using the Potential Energy Surface. European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012), Vienna, Austria, 10–14 September 2012.

Malte von Scheven, Ekkehard Ramm, Manfred Bischoff. Efficient Multilevel-Algorithms for Fluid-Structure Interaction. IV European Conference on Computational Mechanics (ECCM 2010), Paris, France, 16–21 May 2010.

Malte von Scheven, Ekkehard Ramm, Manfred Bischoff. Effiziente Mehrlevel-Algorithmen für die Fluid-Struktur-Wechselwirkung. Forschungskolloquium Baustatik-Baupraxis, Falkenstein, Harz, 15.–18. September 2009.

Malte von Scheven, Ekkehard Ramm, Manfred Bischoff. Efficient Multilevel-Algorithms for Fluid-Structure Interaction. IV International Conference on Textile Composites and Inflatable Structures (Structural Membranes 2009), Stuttgart, Germany, 5–7 October 2009.

Malte von Scheven, Ekkehard Ramm, Manfred Bischoff. Efficiency Issues of Partitioned Solution in Fluid-Structure Interaction. 8th World Congress on Computational Mechanics (WCCM 8), Venice, Italy, 30 June–4 July 2008.

Malte von Scheven, Sunil Reddy Tiyyagura. FSI simulations on vector systems - Development of a linear iterative solver (BLIS). 6th Teraflop Workshop, Stuttgart, Germany, 26–27 March 2007.

Malte von Scheven, Sunil Reddy Tiyyagura, Ekkehard Ramm, Manfred Bischoff. Efficiency Issues of Partitioned Solution in Fluid-Structure Interaction. International Conf on Computational Methods for Coupled Problems in Science and Engineering, Santa Eulalia, Ibiza, Spain, 21–23 Mai 2007.

Malte von Scheven, Ekkehard Ramm, Manfred Bischoff. Efficiency Issues of Partitioned Solution in Fluid-Structure Interaction. Second GACM Colloquium on Computational Mechanics (GACM 2007), Munich, Germany, 10–12 October 2007.

Malte Neumann, Sunil Reddy Tiyyagura, Wolfgang A. Wall, Ekkehard Ramm. Efficiency Aspects for Computational Fluid Dynamics. FE im Schnee, Söllerhaus, Austria, 25–28 January 2006.

Malte Neumann, Wolfgang A. Wall, Ekkehard Ramm. Efficiency and Robustness Aspects for Staggered Solution of Fluid-Structure Interaction. 7th World Congress on Computational Mechanics (WCCM 2006), Los Angeles, USA, 16–22 July 2006.

Malte von Scheven, Wolfgang A. Wall, Ekkehard Ramm. Efficiency and Robustness Aspects for Staggered Solution of Fluid-Structure Interaction. Forschungskolloquium Baustatik Baupraxis, Obergurgl, Austria, 19–22 September 2006.

Malte Neumann, Sunil Reddy Tiyyagura, Wolfgang A. Wall, Ekkehard Ramm. Robustness and Efficiency Aspects for Computational Fluid Structure Interaction. Second Russian-German Advanced Research Workshop on Computational Science and High Performance Computing, Stuttgart, Germany, 14–16 March 2005.

Malte Neumann, Sunil Reddy Tiyyagura, Wolfgang A. Wall, Ekkehard Ramm. Efficiency Aspects for Advanced Fluid Finite Element Formulations. Thirteenth Conference on Finite Elements for Flow Problems, Swansea, Wales, 4–6 April 2005.

Malte Neumann, Sunil Reddy Tiyyagura, Wolfgang A. Wall, Ekkehard Ramm. Efficiency Aspects for Advanced Fluid Finite Element Formulations. Fifth International Conference on Computation of Shell and Spatial Structures (IASS IACM 2005), Salzburg, Austria, 1–4 June 2005.

Malte Neumann, Sunil Reddy Tiyyagura, Wolfgang A. Wall, Ekkehard Ramm. Efficiency Aspects for Advanced Fluid Finite Element Formulations. First GACM Colloquium for Young Scientists on Computational Mechanics (GACM 2005), Bochum, Germany, 5–7 October 2005.

Malte Neumann, Wolfgang A. Wall, Sunil Reddy Tiyyagura, Ulrich Küttler, Ekkehard Ramm. Towards Teraflop for General Fluid-Structure-Interaction. First Teraflop Workshop, High Performance Computing Center Stuttgart, Germany, 6 May 2004.

Further Activities in the Scientific Community

  • 2024: Mini Symposium "Adaptive Tragwerke" at the 15. Fachtagung Baustatik – Baupraxis (BB15), Hamburg, 4.-5. März 2024. (Mini Symposium Organizer)
  • 2023: Mini Symposium "Adaptive civil engineering structures" at the 10th ECCOMAS Thematic Conference on Smart Structures and Materials (SMART 2023), Patras, Greece, 3–5 July 2023. (Mini Symposium Organizer)
  • 2022: Mini Symposium "Adaptive Engineering Structures", 15th World Congress in Computational Mechanics (WCCM) and 8th Asian Pacific Congress on Computational Mechanics (APCOM), July 31–August 5, 2022, Yokohama, Japan (Mini Symposium Organizer)
  • 2022: Mini Symposium "Adaptive and Compliant Engineering Structures", 8th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS Congress 2022), June 5-9 2022, Oslo, Norwas (Mini Symposium Organizer)
  • 2020: Mini Symposium "Adaptive Engineering Structures", 14th World Congress in Computational Mechanics (WCCM XIV) and 8th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2020), July 19–24, 2020, Paris, France (Mini Symposium Organizer)
  • 2020: 14. Fachtagung Baustatik-Baupraxis (BB14), Stuttgart, Germany, 23.–24. März 2020. (Conference Chairman)
  • 2019: Mini Symposium "Smart & Adaptive Engineering Structures" at the 9th ECCOMAS Thematic Conference on Smart Structures and Materials (SMART 2019), Paris, France, 8–12 July 2019. (Mini Symposium Organizer)
  • 2018: 2nd International Conference on Simulation Technology (SimTech 2018), Stuttgart, Germany, 26–28 March 2018 (Member of the Organizing Committee)
  • 2018: Mini Symposium "Smart and Adaptive Engineering Structures" at the 13th World Congress in Computational Mechanics (WCCM 2018), New York, USA, 22–27 July 2018. (Mini Symposium Organizer)
  • 2018: Mini Symposium "Adaptive engineering structures" at the 6th European Conference on Computational Mechanics (ECCM-ECFD 2018), Glasgow, UK, 11–15 June 2018. (Mini Symposium Organizer)
  • 2017: 7th GACM Colloquium on Computational Mechanics for Young Scientists from Academia and Industry (GACM 2017), Stuttgart, Germany, 11–13 October 2017. (Conference Chairman)
  • 2013: 3rd International Conference on Particle-based Methods (Particles 2013), Stuttgart, Germany, 18–20 September 2013. (Secretary General)
  • 2005: 5th International Conference on Computation of Shell & Spatial Structures (IASS IACM 2005), Salzburg, Austria, 1–4 June 2005.  (Conference Secretary)
  • since 2014: Member of the Faculty Council of Faculty 2
  • since 2014: Member of the Strategy development group of Faculty 2
  • since 2016: Member of the TIK Users Committee
  • since 2019: Spokesperson of the C@MPUS Users Committee
  • since 2019: Member of the C@MPUS-Board

Supervision of Theses

  1. Lujing Zhou. Computational Implementation of the Ultimate Load Method (23/02). Master Thesis. Supervisor: Tamara Prokosch und Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2023.
  2. Devesh Raj. Investigation of homogenization techniques for short fiber reinforced plastics (SFRP) in finite element modelling (23/10). Master Thesis. Supervisor: Malte von Scheven und Christian Liebold (DYNAmore GmbH). Institute for Structural Mechanics, University of Stuttgart. 2023.
  3. Andrea Habrich. Investigations on the Optimization of the Redundancy Distribution in Truss Structures (23/22). Master Thesis. Supervisor: Malte von Scheven und David Forster. Institute for Structural Mechanics, University of Stuttgart. 2023.
  4. Julia Schäffer. Strömungssimulation zur Berechnung windinduzierter Druckbelastung (21/07). Master Thesis. Supervisor: Malte von Scheven (IBB) und Dieter Ströbel, Bernhard Simmler (technet GmbH). Institute for Structural Mechanics, University of Stuttgart. 2021.
  5. Arjun Balagopal Menon. Optimization of Fiber Orientations Using Surrogate Models for the Anisotropic Simulation of SFRP Composites (21/16). Master Thesis. Supervisor: Malte von Scheven und Wolfram Hahn (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2021.
    • Fiona Weiß. Dynamic Pricing in an Intraday Market with Application to Peer-to-Peer Trading (21/18). Master Thesis. Supervisor: Malte von Scheven (IBB), Spasena Dakova (ISYS) und Toru Namerikawa (Keio University, Japan). Institute for Structural Mechanics, University of Stuttgart. 2021.
    • Gabriela Barrón Loeza. Implementation and Evaluation of Topology Optimization Methods for Structural Components Subjected to Transient Loads (20/20). Master Thesis. Supervisor: Malte von Scheven und Steffen Mucha (Hilti AG, Kaufering). Institute for Structural Mechanics, University of Stuttgart. 2020.
      • Livia Prifti. Coupling of Beam and Volumne Finite Elements in the Elastic Half-Space (19/03). Master Thesis. Supervisor: Malte von Scheven und Roland Sauer (RIB Software SE). Institute for Structural Mechanics, University of Stuttgart. 2019.
      • Ricardo Ribeiro Dias. Stabwerkmodelle zur Tragwerksentwicklung (19/05). Master Thesis. Supervisor: Malte von Scheven und Stefan Spreng (wh-p). Institute for Structural Mechanics, University of Stuttgart. 2019.
      • Tobias Kurz. Redundanzbasierte Optimierung von Fachwerksystemen (19/16). Master Thesis. Supervisor: Malte von Scheven und Jan Gade. Institute for Structural Mechanics, University of Stuttgart. 2019.
      • Lincoln Sherpa. Weight Optimization of a Battery Driven Direct Fastening Tool (19/19). Master Thesis. Supervisor: Malte von Scheven und Wolfram Hahn (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2019.
        • Anqi Li. An efficient and sufficient optimal-design-finding process for mechanical parts in an electrical machine (18/20). Master Thesis. Supervisor: M. von Scheven und Dr. Dominik Flore (Robert Bosch GmbH). Institute for Structural Mechanics, University of Stuttgart. 2018.
        • Ishan Gupta. Design Optimization of a Handheld Nailing Tool (18/24). Master Thesis. Supervisor: Malte von Scheven und Peter Bruggmüller (Hilti AG, Liechtenstein). Institute for Structural Mechanics, University of Stuttgart. 2018.
          • Ranzi Huang. The Application of Bifurcation Buckling Analysis in Computerassisted Shell Structures Design (18/28). Master Thesis. Supervisor: Malte von Scheven (IBBI und Isao Saiki, Takeki Yamamoto (Tohoku University). Institute for Structural Mechanics, University of Stuttgart. 2018.
          • Qinyu Zhuang. Numerical Simulation of Electrostatic Actuator (18/35). Master Thesis. Supervisor: Malte von Scheven und Henry Leistner (Frauenhofer EMFT). Institute for Structural Mechanics, University of Stuttgart. 2018.
          • Mahesh Veerappa Yalagach. Study of process simulation and integrity analysis using short fiber reinforced polymers (17/03). Master Thesis. Supervisor: Malte von Scheven (IBB) und Dr. Jens Neumann (ZF-TRW Automotive GmbH). Institute for Structural Mechanics, University of Stuttgart. 2017.
          • Tanzia Nashrin Islam. Structural Design and Optimization of Hilti GX Tool (17/23). Master Thesis. Supervisor: Malte von Scheven und Peter Bruggmüller (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2017.
            • Ken Tang. A Simplified Screw Model for Drop Test Simulations Considering Pretension and Failure (17/24). Master Thesis. Supervisor: Malte von Scheven und Wolfram Hahn (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2017.
              • Omar Eladel Kamel. Global Optimization of Transient Electromagnetic Eddy Current Drive (17/25). Master Thesis. Supervisor: Malte von Scheven und Chafic Abu-Antoun (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2017.
                • Zahid Mohammad Mir. Numerical Analysis of Loading Capacity for Metal Expansion Anchor and Direct Fastening Nail (16/01). Master Thesis. Supervisor: Dr. Malte von Scheven (IBB) und Dr. Yijun Li, Furkan Gültekin (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2016.
                  • Vikramaditya Ashok Gaonkar. Simulation of Fluid Flow through a Diamond Core Bit (16/21). Master Thesis. Supervisor: M. von Scheven (IBB) und S. Andreae, A. Kidess (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2016.
                    • Antonio Edwins Ibarra Soto. Optimization of the Airbag Folding Simulation and Sensitivity Analysis (16/26). Master Thesis. Supervisor: Malte von Scheven (IBB) und Matthias Lich (Volkswagen AG). Institute for Structural Mechanics, University of Stuttgart. 2016.
                    • Shehjar Kaul. Development of a 6/4 switched reluctance motor based on global optimization using a transient finite element model (15/04). Master Thesis. Supervisor: Malte von Scheven (IBB) und Chafic Abu Antoun (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2015.
                      • Özgür Cebeci. Cohesive Contact Modeling in Forming Simulations of Metal Carbon Semifinished Sandwich Sheets (15/07). Master Thesis. Supervisor: Malte von Scheven (IBB) und Andreas Zeiser (inpro). Institute for Structural Mechanics, University of Stuttgart. 2015.
                      • Fahri Semih Aksuoglu. Component Test Model Development for Vehicle Roof Systems to Simulate Roof Crush (15/08). Master Thesis. Supervisor: Malte von Scheven (IBB) und Oliver Sackel (Audi AG). Institute for Structural Mechanics, University of Stuttgart. 2015.
                        • Heiko Müllerschön. Formvielfältigkeit von freigeformten Gitternetzschalen durch entsprechende Optimierungsverfahren (15/28). Master Thesis. Supervisor: Malte von Scheven (IBB) und Laurent Giampellegrini (Knippers Helbig - Advanced Engineering). Institute for Structural Mechanics, University of Stuttgart. 2015.
                        • Harsh Sharma. Investigation and Characterization of the Material Behavior of a Steel Alloy (15/29). Master Thesis. Supervisor: Malte von Scheven (IBB) und Wolfram Hanh (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2015.
                          • Philipp Längst. Untersuchung und Erweiterung des isogeometrischen Designprozesses (IGA) anhand von Schalen- und Membrantragwerken (15/30). Master Thesis. Supervisor: M. von Scheven (IBB), A. Michalski (str.ucture) und B. Philipp und M. Breitenberger (TUM). Institute for Structural Mechanics, University of Stuttgart. 2015.
                          • Amelie Janetschek. Dynamische Berechnungen mit StaR2 (15/32). Master Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2015.
                          • Shriram Mukunthan. Retractor Pretensioner Test Rig Simulation Analysis (14/02). Master Thesis. Supervisor: Malte von Scheven (IBB) und Jrgen Schmidt (TRW). Institute for Structural Mechanics, University of Stuttgart. 2014.
                          • NaveenBalaji Padmanabhan Ramesh. Implementation and Analysis of Compression Coil Spring in a Seat Belt Locking System (14/07). Master Thesis. Supervisor: Malte von Scheven (IBB) und Elmar Koch (TRW). Institute for Structural Mechanics, University of Stuttgart. 2014.
                          • Kamal Kumar. Setting process simulation of DX elements on concrete (14/14). Master Thesis. Supervisor: Malte von Scheven (IBB) und Furkan Gültekin (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2014.
                            • Grace Lolita Tsebo Simo. FEM Simulation of the Reliabilty of Electronic Components under Drop Test (13/04). Master Thesis. Supervisor: Malte von Scheven (IBB) und Hossein Shirangi (Robert Bosch GmbH). Institute for Structural Mechanics, University of Stuttgart. 2013.
                            • Karunya Abuirami Ramani Mohan. Theory and Application of Convex Optimization in Hilit-Relevant Loadcases (13/07). Master Thesis. Supervisor: Malte von Scheven (IBB) und Peter Bruggmueller und Chafic Abu Antoun (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2013.
                              • Markus Goeke. Modellierung der Materialdämpfung bei der Wellenausbreitung in flexiblen Leitungen (13/12). Master Thesis. Supervisor: M. von Scheven (IBB) und L. Reichelt, A. Filimon (Bosch GmbH). Institute for Structural Mechanics, University of Stuttgart. 2013.
                              • Martin Porz. Einfluss der Knotenausbildung auf das Tragverhalten von Gitterschalen (13/15). Master Thesis. Supervisor: Malte von Scheven (IBB) und Roman Kemmler (sbp). Institute for Structural Mechanics, University of Stuttgart. 2013.
                              • Junjie Luo. Numerical Evaluation of Concrete Models in LS-DYNA and Application to Hilti Specific Processes (12/14). Master Thesis. Supervisor: Malte von Scheven (IBB) und Yijun Li (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2012.
                                • Toral Rashmikant Shah. Geometry Design Optimization of Fastening Systems in Transient Finite Elements (11/14). Master Thesis. Supervisor: M. von Scheven und P. Bruggmüller (Hilti AG). Institute for Structural Mechanics, University of Stuttgart. 2011.
                                  • Romit Ashok Kulkarni. Finite Element Modelling of Foundation Impedance for Turbo Machinery Base-Frames (10/04). Master Thesis. Supervisor: Malte von Scheven (IBB) und Dr. Büssow (MAN Diesel & Turbo). Institute for Structural Mechanics, University of Stuttgart. 2010.
                                  • Stefan Spreng. Identification of Static Equilibria via Potential Energy Optimization (10/08). Master Thesis. Supervisor: Malte von Scheven (IBB) und Christian Linder (Institut für Mechanik). Institute for Structural Mechanics, University of Stuttgart. 2010.
                                  • Michael Kreim. Numerische Optimierung von Einzelschweißpunkten im PKW-Rohbau (Nr. 09/15). Master Thesis. Supervisor: Dr.-Ing. Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2009.
                                  • Reuben D'Souza. Structure Dynamics and Acoustic Simulation of a Fuel Injector (Nr. 08/3). Master Thesis. Supervisor: Dr.-Ing. Michael Mayer und Malte von Scheven und Prof. Manfred Bischoff. Institute for Structural Mechanics, University of Stuttgart. 2008.
                                    • Özgür Aslan. Material Modelling of Metallic Sand under Impact Loads (Nr. 06/5). Master Thesis. Supervisor: Benjamin Schneider, Malte Neumann and Hilti Corporation, Research & Development. Institute for Structural Mechanics, University of Stuttgart. 2006.
                                      • Madhukar Chatiri. Numerical Simulation and Crash Analysis of Vans (Nr. 05/3). Master Thesis. Supervisor: Malte Neumann and DaimlerChrysler AG. Institute for Structural Mechanics, University of Stuttgart. 2005.
                                      • Sunil Reddy Tiyyagura. Efficient Implementation for Fluid and Structural Elements (Nr. 04/6). Master Thesis. Supervisor: Malte Neumann. Institute for Structural Mechanics, University of Stuttgart. 2004.
                                      • Hesham El Amin. Three Dimensional Fragmentation Simulation (Nr. 03/6). Master Thesis. Supervisor: Malte Neumann und Tobias Erhart. Institute for Structural Mechanics, University of Stuttgart. 2003.
                                      1. Tim Mahler. Numerische Methoden zur Ermittlung kinematischer Mechanismen in Rahmentragwerken (21/24). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2021.
                                      2. Jeannine Runzheimer. Interaktiver Entwurf von 2D Fachwerken durch grafische Statik (18/06). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2018.
                                      3. Alina Essig. Particle Swarm Optimization (18/08). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2018.
                                      4. Lukas Ruh. Konzepte zum Aufbau und Entwurf von Stabtragwerken (18/32). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2018.
                                      5. Jule Gruber. Strukturoptimierung (16/07). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2016.
                                      6. Tamara Prokosch. Entwicklung eines Tools zur Bestimmung von Stützlinien (16/27). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2016.
                                      7. Selma Topay. Ebene Stabtragwerke mit Belastung senkrecht zur Ebene (15/13). Bachelor Thesis. Supervisor: Malte von Scheven (IBB). Institute for Structural Mechanics, University of Stuttgart. 2015.
                                      8. Kornelia Kuhn. Optimale Michell-Strukturen auf Basis der graphischen Statik (15/27). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2015.
                                      9. Mathias Mentler. Traglastuntersuchung von Seiltragwerken (14/08). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2014.
                                      10. Ferhat Öztürk. Grundidee und Anwendung der Finite-Elemente-Methode (14/24). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2014.
                                      11. Dominik Ostermann. Entwurf von Vorspannungsmodellen (13/11). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2013.
                                      12. Jonas Landsberger. Experimentelle Formfindungsmethoden von Strukturen (13/18). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2013.
                                      13. Tina Bauer. Graphische Methoden der Statik (13/24). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2013.
                                      14. Amelie Janetschek. Berechnung von Spannungen in ebenen Stabtragwerken mit beliebigen Querschnitten (12/05). Bachelor Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2012.
                                      1. Gloria Strohofer. Viskoelastische Materialmodellierung von Elastomeren unter Berücksichtigung des Payne-Effekts (11/15). Diploma Thesis. Supervisor: M. von Scheven und M. André, A. Rodriguez (Robert Bosch GmbH). Institute for Structural Mechanics, University of Stuttgart. 2011.
                                      2. Lei Zhou. Visualisierung und Berechnung der Brauchbarkeit von räumlichen Stabtragwerken (Nr. 08/12). Diploma Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2008.
                                        • Holger Nickels. Untersuchungen zum Tragverhalten von Rotationsschalen (Nr. 06/9). Diploma Thesis. Supervisor: Malte von Scheven. Institute for Structural Mechanics, University of Stuttgart. 2006.
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