Full name Familienname, Vorname
Stipsitz, Monika
 
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Results 1-13 of 13 (Search time: 0.002 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Stipsitz, Monika ; Zysset, Philippe K. ; Pahr, Dieter H. Influence of Stress Redistributions in μFEA on the Predicted Failure Load of Radius SegmentsPräsentation Presentation2021
2Stipsitz, Monika ; Zysset, Philippe K. ; Pahr, Dieter H. Prediction of the Inelastic Behaviour of Radius Segments: Damage-based Nonlinear Micro Finite Element Simulation vs Pistoia CriterionArtikel Article 2021
3Pahr, Dieter H. ; Zysset, Philippe K. ; Stipsitz, Monika Efficient non-linear micro FE: results from trabecular biopsies and human radius sectionsPräsentation Presentation2021
4Stipsitz-2020-Biomechanics and Modeling in Mechanobiology-vor.pdf.jpgStipsitz, Monika ; Zysset, Philippe K. ; Pahr, Dieter H. Efficient materially nonlinear 𝜇FE solver for simulations of trabecular bone failureArtikel Article Jun-2020
5Stipsitz, Monika ; Synek, Alexander ; Stefanek, Pia ; Pahr, Dieter Non-linear micro FE in bone biomechanicsPräsentation Presentation2020
6Stipsitz Monika - 2020 - Development of a nonlinear micro finite element...pdf.jpgStipsitz, Monika Development of a nonlinear micro finite element framework for image-based simulations in bone biomechanicsThesis Hochschulschrift 2020
7Stipsitz, Monika ; Pahr, Dieter H. An efficient solver for CT based nonlinear microFE simulations of trabecular structuresPräsentation Presentation2019
8Pahr, Dieter ; Synek, Alexander ; Stipsitz, Monika ; Steiner, Lukas Micro FE in bone biomechanics - Recent advancesPräsentation Presentation2019
9Stipsitz, Monika ; Zysset, Philippe K. ; Pahr, Dieter Failure Behavior of Trabecular Bone Based on Materially Nonlinear Micro FE SimulationsKonferenzbeitrag Inproceedings2019
10Stipsitz, Monika ; Zysset, Philippe K. ; Pahr, Dieter H. An efficient solver for large-scale simulations of voxel-based structures using a nonlinear damage material modelPräsentation Presentation2018
11Stipsitz, Monika ; Zysset, Philippe K. ; Pahr, Dieter H. Simplified Model for Efficient Nonlinear Material Finite Element Simulations of Trabecular BonePräsentation Presentation2017
12Stipsitz, Monika ; Kahl, Gerhard ; Bianchi, Emanuela Generalized inverse patchy colloid modelArtikel Article2015
13Stipsitz Monika - 2015 - Thermodynamic properties of particles with...pdf.jpgStipsitz, Monika Thermodynamic properties of particles with heterogeneously patterned surfacesThesis Hochschulschrift 2015