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 261-280 of 1489 (Search time: 0.001 seconds).

PreviewAuthor(s)TitleTypeIssue Date
261Hellmich, Christian Recent Multiscale Mechanics Contributions to Bone Tissue EngineeringPräsentation Presentation2017
262Wittner, Valentina Engineering Mechanics at the BiointerfacePräsentation Presentation2017
263Wittner, Valentina Engineering Mechanics at the BiointerfacePräsentation Presentation2017
264Pichler, Bernhard Studies at TU Vienna on Creep of Cementitious MaterialsPräsentation Presentation2017
265Pichler, Bernhard The Effect of Water-Aggregate Interaction on Creep of Hydrating Mortars and ConcretesPräsentation Presentation2017
266Pichler, Bernhard Homogenization of Non-Aging Creep: From Nano-Mechanisms to Model ValidationPräsentation Presentation2017
267Pichler, Bernhard Upscalling of Nanoscience Research Results to Macromechanical PropertiesPräsentation Presentation2017
268Pichler, Bernhard Microporomechanical Modeling of Thermal Expansion of Cement PastePräsentation Presentation2017
269Pichler, Bernhard Moment-Rotation Relations of Concrete Hinges Connecting Neighboring Tunnel Segments: Experiments and FE ModelingPräsentation Presentation2017
270Pichler, Bernhard Early-Age Evolution of Non-Aging Creep Properties of Cement Pastes, Mortars, and ConcretesPräsentation Presentation2017
271Pichler, Bernhard From Creep and Strength of Microscopic Hydrate Gel Needles to Creep and Strength of Cement PastePräsentation Presentation2017
272Hellmich, Christian Towards a Unified Mechanical Modelling Approach for Hard and Soft Tissues, Considering Universal Elementary Components and Hierarchical OrganizationPräsentation Presentation2017
273Hellmich, Christian Towards Highly Efficient Multiscale Simulations in Orthopedy: Micromechanics Coupled with Non-Homogeneous Timoshenko (Shear-compliant) Beam TheoryPräsentation Presentation2017
274Kalliauer, Johannes GIMP & InkscapePräsentation Presentation2017
275Balduzzi, Giuseppe Non-Prismatic Multi-Layered Planar Beams: Critical Issues and Effective Modeling ApproachesPräsentation Presentation2017
276Balduzzi, Giuseppe Estimation of the Bending Stiffness of GLT Beams: A Novel Procedure Based on Enhanced Analysis of the Boards' Stiffness and First Order Beam ModelsPräsentation Presentation2017
277Hellmich, Christian Poro-Micromechanics of Materials with Complex Morphologies - A Review, and Recent Results for Concrete, Bone, and PaperPräsentation Presentation2017
278Hellmich, Christian Pore Space-Specific Bone Mechanosensation Studied by Means of a Multiscale Systems Biology ApproachPräsentation Presentation2017
279Vass, Viktoria Micromechanics of Plastically Sliding Interfaces: Theoretical Foundations and Appliation to BonePräsentation Presentation2017
280Kurfürst, Ales From CT Images to Non-Homogeneous Timoshenko Beams: A Computational Biomechanics ApproachPräsentation Presentation2017