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  • Search in name records for: "Stipsitz Monika" ("Monika Stipsitz" interpreted as a name)
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13 matching records have been found with your search parameters:
2 - Faculty of Physics
11 - Faculty of Mechanical and Industrial Engineering




Zeitschriftenartikel:

  1. Source: Faculty of Physics

    M. Stipsitz, G. Kahl, E. Bianchi:
    "Generalized inverse patchy colloid model";
    Journal of Chemical Physics, 143 (2015), 114905-1 - 114905-12.

    More information

  2. Source: Faculty of Mechanical and Industrial Engineering

    M. Stipsitz, P.K. Zysset, D. H. Pahr:
    "Efficient materially nonlinear 𝜇FE solver for simulations of trabecular bone failure";
    Biomechanics and Modeling in Mechanobiology, 19 (2020), 861 - 874.

  3. Source: Faculty of Mechanical and Industrial Engineering

    M. Stipsitz, P.K. Zysset, D. H. Pahr:
    "Prediction of the Inelastic Behaviour of Radius Segments: Damage-based Nonlinear Micro Finite Element Simulation vs Pistoia Criterion";
    Journal of Biomechanics, 116 (2021), 110205; 1 - 13.


Vorträge und Posterpräsentationen (mit Tagungsband-Eintrag):

  1. Source: Faculty of Mechanical and Industrial Engineering

    M. Stipsitz, P.K. Zysset, D. Pahr:
    "Failure Behavior of Trabecular Bone Based on Materially Nonlinear Micro FE Simulations";
    Talk: 25th Congress of the European Society of Biomechanics, Vienna; 2019-07-07 - 2019-07-10; in: "Book of Abstracts of the 25th Congress of the European Society of Biomechanics", TU Verlag, (2019), ISBN: 978-3-903024-96-0; 270.


Vorträge und Posterpräsentationen (ohne Tagungsband-Eintrag):

  1. Source: Faculty of Mechanical and Industrial Engineering

    D. H. Pahr, P.K. Zysset, M. Stipsitz:
    "Efficient non-linear micro FE: results from trabecular biopsies and human radius sections";
    Talk: 17th International Symposium on Computer Methods in Biomechanics and Biomedical Engineering (CMBBE 2021), Bonn; 2021-09-07 - 2021-09-09.

  2. Source: Faculty of Mechanical and Industrial Engineering

    D. Pahr, A. Synek, M. Stipsitz, L. Steiner:
    "Micro FE in bone biomechanics - Recent advances";
    Talk: 11. Kongress der Deutschen Gesellschaft für Biomechanik (DGfB 2019), Berlin; 2019-04-03 - 2019-04-05.

  3. Source: Faculty of Mechanical and Industrial Engineering

    M. Stipsitz, D. H. Pahr:
    "An efficient solver for CT based nonlinear microFE simulations of trabecular structures";
    Talk: 90th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM 2019), Vienna; 2019-02-18 - 2019-02-22.

    More information

  4. Source: Faculty of Mechanical and Industrial Engineering

    M. Stipsitz, A. Synek, P. Stefanek, D. Pahr:
    "Non-linear micro FE in bone biomechanics";
    Talk: Scientific Meeting of the Austrian Chapter of ESB, online / Zoom; 2020-11-30.

  5. Source: Faculty of Mechanical and Industrial Engineering

    M. Stipsitz, P.K. Zysset, D. H. Pahr:
    "An efficient solver for large-scale simulations of voxel-based structures using a nonlinear damage material model";
    Talk: 6th European Conference on Computational Mechanics (Solids, Structures and Coupled Problems) (ECCM 6), Glasgow, UK; 2018-06-11 - 2018-06-15.

  6. Source: Faculty of Mechanical and Industrial Engineering

    M. Stipsitz, P.K. Zysset, D. H. Pahr:
    "Influence of Stress Redistributions in μFEA on the Predicted Failure Load of Radius Segments";
    Talk: 26th Congress of the European Society of Biomechanics - ESBiomech, Mailand; 2021-07-11 - 2021-07-14.

  7. Source: Faculty of Mechanical and Industrial Engineering

    M. Stipsitz, P.K. Zysset, D. H. Pahr:
    "Simplified Model for Efficient Nonlinear Material Finite Element Simulations of Trabecular Bone";
    Talk: 23rd Congress of the European Society of Biomechanics, Sevilla; 2017-07-02 - 2017-07-05.


Dissertationen (eigene und begutachtete):

  1. Source: Faculty of Mechanical and Industrial Engineering

    M. Stipsitz:
    "Development of a nonlinear micro Finite Element framework for image-based simulations in bone biomechanics";
    Supervisor, Reviewer: D. Pahr, B. van Rietbergen, Harry van Lenthe; Institut für Leichtbau und Struktur-Biomechanik, TU Wien, 2020; oral examination: 2020-02-25.


Diplom- und Master-Arbeiten (eigene und betreute):

  1. Source: Faculty of Physics

    M. Stipsitz:
    "Thermodynamic properties of particles with heterogeneously patterned surfaces";
    Supervisor: G. Kahl, E. Bianchi; Institut für Theoretische Physik, 2015; final examination: 2015.

    More information

 
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