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 281-300 of 1490 (Search time: 0.002 seconds).

PreviewAuthor(s)TitleTypeIssue Date
281Hellmich, Christian Patient-Specific Fracture Risk Assessment of Vertebrae - a Multiscale Approach Coupling X-Ray Physics and Continuum MicromechanicsPräsentation Presentation2017
282Kurfürst, Ales Coupling CT Images to Non-Homogeneous Timoshenko Beams Representing Lumbar VertebraePräsentation Presentation2017
283Hellmich, Christian Recent Contributions of Multiscale Engineering Mechanics, to Biology and MedicinePräsentation Presentation2017
284Hellmich, Christian Engineering Sciences Supporting BioMedicine: Recent AccomplishmentsPräsentation Presentation2017
285Hellmich, Christian Engineering Mechanics im Medicine and Biology: Multiscale Elastoplasticity and News on the Cement Line in Osteonal BonePräsentation Presentation2017
286Hellmich, Christian Engineering Mechanics im Medicine and Biology: Multiscale Elastoplasticity and News on the Cement Line in Osteonal BonePräsentation Presentation2017
287Mang, Herbert A. Bridging the Gap Between Concrete Microstructures and Tunnel Linings by Means of Multiscale AnalysisPräsentation Presentation2017
288Mang, Herbert A. On a Kinematic-Based Hypothesis for a Breakdown of the Strain EnergyPräsentation Presentation2017
289Hellmich, Christian Layered Water in Bone as Key for its Strength, Creep, Permeability, and Mechano-SensitivityPräsentation Presentation2017
290Hellmich, Christian Layered Water in Bone as Key for its Strength, Creep, Permeability, and Mechano-SensitivityPräsentation Presentation2017
291Hellmich, Christian Engineering Mechanics in Medicine and Biology: Multiscale Elastoplasticity and New on the Cement Line in Osteonal BonePräsentation Presentation2017
292Hellmich, Christian Mathematical Modeling of Biomedical Materials, Structures, an Systems: Potentials and Limitations in Cardiology and NeurologyPräsentation Presentation2017
293Mang, Herbert A. Evolution and Verification of a Kinematic Hypothesis for Splitting of the Strain EnergyPräsentation Presentation2017
294Hellmich, Christian Origins of Elasticity, Strength, and Creep of Concrete: The Multiscale Engineering Mechanics PerspectivePräsentation Presentation2017
295Hellmich, Christian Explaining Biomechanical Phenomena Through Models of Different (Increasing) ComplexityPräsentation Presentation2017
296Hellmich, Christian Mechanics and Mechano-Biology of Bone: On the Key Role of WaterPräsentation Presentation2017
297Pichler, Bernhard Bridging the Gap Between Concrete Microstructures and Tunnel LiningsPräsentation Presentation2017
298Pichler, Bernhard Do Modern Concretes Exhibit Similar Early-Age Stiffness and Strength Developments as their Predecessors?Präsentation Presentation2017
299Zhang, Jiaolong Multiscale Structural Analysis of a Displacement-Monitored Experiment on a Segmented Tunnel RingPräsentation Presentation2017
300Mang, Herbert A. Bridging the Gap Between Concrete Microstructures and Tunnel LiningsPräsentation Presentation2017