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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Marx, Steffen
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (34/34 displayed)
- 2024Investigations on the bond strength of non-metallic, textile reinforcements in concrete components
- 2024Matched Filter for Acoustic Emission Monitoring in Noisy Environmentscitations
- 2024Shear Transfer in Concrete Joints with Non-Metallic Reinforcementcitations
- 2024Acoustic Emission Monitoring in Prestressed Concretecitations
- 2024Analysis of the Repeatability of the Pencil Lead Break in Comparison to the Ball Impact and Electromagnetic Body-Noise Actuator
- 2024Experimental investigations on normal mode nodes as support positions of a resonant testing facility for bending fatigue tests
- 2023Wire Break Detection in Bridge Tendons Using Low-Frequency Acoustic Emissionscitations
- 2023Photogrammetric Image Sequence Analysis for Deformation Measurement and Crack Detection Applied to a Shear Test on a Carbon Reinforced Concrete Member
- 2023Frequency dependent amplitude response of different couplant materials for mounting piezoelectric sensorscitations
- 2023DEVELOPMENT OF CARBON-REINFORCED HOLLOW CORE SLAB
- 2023The Recycling of Carbon Components and the Reuse of Carbon Fibers for Concrete Reinforcementscitations
- 2023REUSE OF RECYCLED CARBON FIBERS FOR REINFORCEMENTS
- 2023Experimental Investigations on the Load-Bearing Behavior of Monolithically Connected Bridge Pierscitations
- 2023Semi-supervised Learning for Acoustic Vision Monitoring of Tendons in Pre-stressed Concrete Bridgescitations
- 2022Stiffness degradation in fatigue loaded large concrete beams
- 2022Acoustic Emission analysis of a comprehensive database of wire breaks in prestressed concrete girderscitations
- 2022Nonlinear ultrasonic measurements of the damage evolution of concrete samples during fatigue experimentscitations
- 2021Energetic damage analysis regarding the fatigue of concretecitations
- 202111. Symposium Experimentelle Untersuchungen von Baukonstruktionen
- 2021Experimental investigations on a novel concrete truss structure with cast iron nodescitations
- 2020Energetic damage analysis regarding the fatigue of concrete
- 2019Resonant fatigue test facility for large scale bending
- 2019Experimental studies on the interface between concrete and cement-asphalt mortar
- 2019Spannungsumlagerungen bei ermüdungsbeanspruchten Spannbetonbalken im numerischen Modell und Versuchcitations
- 2019Fachwerke aus Betonstreben und Sphärogussknoten
- 2019Testing Existing Structures - Compressive Strength and Tensile Splitting Strength of the Lahntal Bridge Limburg
- 2018Residual capacity and permeability-based damage assessment of concrete under low-cycle fatiguecitations
- 2017Messtechnische Dauerüberwachung zur Absicherung der Restnutzungsdauer eines spannungsrisskorrosionsgefährdeten Brückenbauwerkscitations
- 2017Zum Torsionstragverhalten extern vorgespannter Kreissegmente mit trockenen Fugencitations
- 2017An innovative hybrid substructure for offshore wind turbines
- 2017An Innovative Hybrid Substructure Made of High-Strength Concrete and Ductile Cast Iron for Offshore Wind Turbines
- 2017A strain model for fatigue-loaded concretecitations
- 2015Untersuchungsstrategie zur Bewertung der Langzeitstabilität von Dehnungsmessstreifencitations
- 2012Zum Einfluss der Belastungsfrequenz und der Spannungsgeschwindigkeit auf die Ermüdungsfestigkeit von Betoncitations
Places of action
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document
Stiffness degradation in fatigue loaded large concrete beams
Abstract
In fatigue loaded components such as tower structures of wind turbines, linearly varying strain gradients occur in the cross-section due to cyclic wind and wave loads. As a result, the outer edge of the cross-section is subjected to larger stresses than the inner part of the cross-section. This causes stiffness degradation of the concrete at the outer edge of the cross-section and, consequently, stresses are gradually redistributed to the inner part of the component. This effect decreases the stress at the outer edge and thus extends the service life of fatigue loaded components.<br/>To investigate the effect of stiffness degradation more thoroughly, large concrete beams were experimentally subjected to fatigue loading. This was conducted in a resonance-based testing facility, which made it possible to carry out investigations up to 6.5⋅107 load cycles at a loading frequency of 18 Hz, and thus reaching the very high cycle fatigue range. Beam specimens with two different concrete strengths were tested at two distinct stress levels each. In this contribution, the particular design of the experimental setup in this unique testing facility will be presented, as well as the experimental results. It became evident that this testing facility is suited to purposefully cause stiffness degradation in the beam specimens. These ranged from individual cracks to complete destruction of the specimens in the most stressed zone. Due to the stiffness change in the edge zone, stresses redistributed into the inner part of the cross-section.<br/>In summary, it became clear that this effect enabled the beam specimens to endure a significantly larger number of load cycles than estimated, for example, according to Model Code 2010 for the respective stresses. Since the fatigue assessment is often decisive in the design of fatigue loaded components, this can save a great amount of material if taken into account accordingly.