Forschungsbereich Festigkeitslehre und Biomechanik

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Organization Name (de) Name der Organisation (de)
E202-01 - Forschungsbereich Festigkeitslehre und Biomechanik
 
Code Kennzahl
E202-01
 
Type of Organization Organisationstyp
Research Division
Parent OrgUnit Übergeordnete Organisation
 
Active Aktiv
 

OrgUnit's Publications


Results 221-240 of 1490 (Search time: 0.002 seconds).

PreviewAuthor(s)TitleTypeIssue Date
221Hellmich, Christian Towards Unified Hierarchical Modeling of Hard and Soft Biological TissuesPräsentation Presentation2018
222Scheiner, Stefan Estimating the Stiffness and Strength Increase of a Ceramic Biomaterial Due to Bone Regeneration by Means of a Micromechanical ApproachPräsentation Presentation2018
223Scheiner, Stefan Multiscale Modeling Provides Differentiated Insights to Fluid Flow-Driven Stimulation of Bone Cellular ActivitiesPräsentation Presentation2018
224Mang, Herbert A. Evolution and Verification of a Kinematic Hypothesis for Splitting of the Strain EnergyPräsentation Presentation2018
225Mang, Herbert A. 200 Jahre Mechanik an der Technischen Universität Wien im historischen RückblickPräsentation Presentation2018
226Mang, Herbert A. Bridging the Gap between Concrete Microstructures and Tunnel LiningsPräsentation Presentation2018
227Mang, Herbert A. Evolution and Verification of a Kinematic Hypothesis for Splitting of the Strain EnergyPräsentation Presentation2018
228Mang, Herbert A. Computational Mechanics - An Ideal Research Area for Innovative Solutions of Challenging Engineering ProblemsPräsentation Presentation2018
229Mang, Herbert A. Bridging the Gap between Concrete Microstructures and Tunnel LiningsPräsentation Presentation2018
230Kalliauer, Johannes Towards an Atomistically Rooted Beam Theory for DNAPräsentation Presentation2018
231Scheiner, Stefan Multiscale Modeling Provides Differentiated Insights to Fluid Flow-Driven Stimulation of Bone Cellular ActivitiesPräsentation Presentation2018
232Scheiner, Stefan Pore Space-Specifi Bone Mechanosensation Studied by Means of a Coupled Multiscale Systems Biology/Micromechanics ApproachPräsentation Presentation2018
233Kalliauer, Johannes Parameter Identification as the Basis for Finite Element Simulations of Ultimate Limit States of Concrete HingesPräsentation Presentation2018
234Wang, Hui Multiscale Quantification of Thermal Expansion of Concrete and Thermal Stresses of Concrete StructuresPräsentation Presentation2018
235Zhang, Jiaolong Structural Analysis of Segmented Tunnel Rings: A Combination of Transfer Realtions with an Interface LawPräsentation Presentation2018
236Binder, Eva High-Dynamic Strengthening of Cementitious Materials Subjected to Uniaxial CompressionPräsentation Presentation2018
237Hasslinger, Patricia ; Scheiner, Stefan ; Hellmich, Christian Untersuchung der im Betrieb des Wiener Straßenbahnnetzes relevanten Versagensmechanismen von RillenschienenBericht Report2018
238Scheiner, Stefan Striving for Computer Simulation-Based Patient-Specific Assessment and Treatment of Bone, Based on a Rigorous Multi Scale Mathematical FrameworkPräsentation Presentation2018
239Pichler, Bernhard ; Binder, Eva ; Wan-Wendner, Roman ; Czernuschka, L.-M. ; Peyerl, Martin ; Maier, Gerald ; Vill, Markus Österreichischer Beton Benchmark zur Steigerung der Vorhersagequalität mechanischer Eigenschaften moderner Betone, Final Report for the Traffic-Infrastructure-Research Project "VIF-ÖBB"Bericht Report2018
240Mang, Herbert A. Militärtechnische Ausbildung für das 21. JahrhundertPräsentation Presentation2017