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 121-140 of 1490 (Search time: 0.001 seconds).

PreviewAuthor(s)TitleTypeIssue Date
121Pichler, Bernhard Österreichischer Betonbenchmark zur Steigerung der Vorhersagequalität mechanischer Eigenschaften moderner BetonePräsentation Presentation2019
122Pichler, Bernhard Thermal Expansion of Hardened Cement Paste: Insights from Multiscale Poromechanical AnalysisPräsentation Presentation2019
123Pichler, Bernhard Elasticity, Creep, and Strength of Cementitious Materials: Micro-to-Macro UpscalingPräsentation Presentation2019
124Binder, Eva High-Dynamic Strength Gain of Cementitious Materials and Implications for Civil Engineering DesignPräsentation Presentation2019
125Dohnalik, Petr Stiffness and Strength of Mature Dental Cement PastePräsentation Presentation2019
126Jimenez-Segura, Nabor Poromechanical Modeling of Swelling of Cement Paste During Isothermal AdsorptionPräsentation Presentation2019
127Höller, Raphael Multiaxial Hyperelasticity of GraphenePräsentation Presentation2019
128Scheiner, Stefan Multiscale Modeling Provides Differentiated Insights to Fluid Flow-Driven Stimulation of Bone Cellular ActivitiesPräsentation Presentation2019
129Pichler, Bernhard Konstruktiver IngenieurbauPräsentation Presentation2019
130Zelaya-Lainez, Luis ; Kariem, Hawraa ; Nischkauer, Winfried ; Limbeck, Andreas ; Hellmich, Christian Average of Extracellular Bone Tissue Composition is Invariant Across Mammalian Femora TissuesPräsentation Presentation2019
131Hellmich, Christian Towards Unified Hierarchical Modeling of Hard and Soft Biological TissuesPräsentation Presentation2019
132Höller, Raphael Multiaxial Hyperelasticity of GraphenePräsentation Presentation2019
133Pichler, Bernhard A Rate-Independent Linear-Elastic Model for High-Dynamic Compressive and Tensile Strength of Specimens Made of Cement Paste, Mortar, and ConcretePräsentation Presentation2019
134Mang, Herbert A. Multiscale Analysis of Concrete Structures - A Joint Research Project of Tongji University and Vienna University of TechnologyPräsentation Presentation2019
135Scheiner, Stefan Stress States in Tramway Rails, Predicted Through a Principle of Virtual Power-Based Beam Theory ApproachPräsentation Presentation2019
136Scheiner, Stefan Multiscale Modeling in the Field of Biomedical Engineering at the TUW (IMMS)Präsentation Presentation2019
137Mang, Herbert A. Thermal Expansion of Cement Paste is Governed by Reversible Water Uptake / Release by Hydrates - A Multiscale Poromechanical AnalysisPräsentation Presentation2019
138Mang, Herbert A. Multiscale Modelling - Structural Analysis - ExperimentPräsentation Presentation2019
139Pichler, Bernhard Innovative Creep Testing of Cementitious MaterialsPräsentation Presentation2019
140Pichler, Bernhard Reversible Water Uptake/Release by Hydrates Govern the Thermal Expansion of Cement Paste - A Multiscale Poromechanical AnalysisPräsentation Presentation2019