| People | Locations | Statistics |
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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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Stang, Henrik
Technical University of Denmark
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (70/70 displayed)
- 2024On the Sensitivity of Stress Intensity Factors to Modelling Choices for Steel K Joints
- 2024On the Sensitivity of Stress Intensity Factors to Modelling Choices for Steel K Joints
- 2023Hybrid fatigue crack propagation analysis using damage and fracture mechanics methods
- 2023Design of a composite sub-structural beam specimen for investigating tunneling cracks under cyclic loadingcitations
- 2022A multi-species reactive transport model based on ion-solid phase interaction for saturated cement-based materialscitations
- 2022Cascade Control System Using Feedback From Real-time Digital Image Point Trackingcitations
- 2021Flexural behavior of hybrid fibre-reinforced geopolymer composites (FRGC)-jacketed RC beamscitations
- 2021Numerical simulation of multi-layer 3D concrete printingcitations
- 2021Numerical simulation of multi-layer 3D concrete printingcitations
- 2019Coupled mass transport, chemical, and mechanical modelling in cementitious materials: A dual-lattice approach
- 2019Coupled mass transport, chemical, and mechanical modelling in cementitious materials: A dual-lattice approach
- 2019Hybrid fibre-reinforced geopolymer (HFRG) composites as an emerging material in retrofitting aging and seismically-deficient concrete and masonry structurescitations
- 2019Hybrid fibre-reinforced geopolymer (HFRG) composites as an emerging material in retrofitting aging and seismically-deficient concrete and masonry structurescitations
- 2017Coupled hygrothermal, electrochemical, and mechanical modelling for deterioration prediction in reinforced cementitious materials
- 2016Probabilistic Design and Management of Sustainable Concrete Infrastructure Using Multi-Physics Service Life Models
- 2016Multi-physical and multi-scale deterioration modelling of re-inforced concrete: modelling corrosion-induced concrete damage
- 2016Propagation of steel corrosion in concrete: Experimental and numerical investigationscitations
- 2015Multi-physical and multi-scale deterioration modelling of reinforced concrete part II: Coupling corrosion and damage at the structural scale
- 2015Experimental investigations of sandwich panels using high performance concrete thin plates exposed to firecitations
- 2015Application of microstructurally-designed mortars for studying early-age propertiescitations
- 2015Experimental and Numerical Investigation of the FRP Shear Mechanism for Concrete Sandwich Panelscitations
- 2015Sandwich panels with high performance concrete thin plates at elevated temperaturescitations
- 2015Multi-physics and multi-scale deterioration modelling of reinforced concrete part I: Coupling transport and corrosion at the material scale
- 2015Cost optimization of load carrying thin-walled precast high performance concrete sandwich panelscitations
- 2015Application of microstructurally-designed mortars for studying early-age properties:Microstructure and mechanical propertiescitations
- 2015Sandwich panels with high performance concrete thin plates at elevated temperatures:numerical studiescitations
- 2015Experimental Studies on the Fire Behaviour of High Performance Concrete Thin Platescitations
- 2015Influence of Basalt FRP Mesh Reinforcement on High-Performance Concrete Thin Plates at High Temperaturescitations
- 2014Penetration of corrosion products and corrosion-induced cracking in reinforced cementitious materialscitations
- 2014Penetration of corrosion products and corrosion-induced cracking in reinforced cementitious materials: Experimental investigations and numerical simulationscitations
- 2014Optimization process for thin-walled high performance concrete sandwich panels
- 2014Strain and displacement controls by fibre bragg grating and digital image correlationcitations
- 2013Structural performance of new thin-walled concrete sandwich panel system reinforced with bfrp shear connectors
- 2013Optimization process for thin-walled High Performance Concrete sandwich panels
- 2013A model for spalling of HPC thin plates exposed to firecitations
- 2013Fire performance of basalt FRP mesh reinforced HPC thin plates
- 2012Embedded adhesive connection for laminated glass platescitations
- 2012Embedded adhesive connection for laminated glass platescitations
- 2012Fibre reinforced self-compacting concrete flow simulations in comparison with l-box experiments using carbopol
- 2012Fibre reinforced self-compacting concrete flow simulations in comparison with l-box experiments using carbopol
- 2012Estimation of elastic modulus of reinforcement corrosion products using inverse analysis of digital image correlation measurements for input in corrosion-induced cracking model
- 2012Numerisk modellering af formfyldning ved støbning i selvkompakterende beton
- 2011Modeling moisture ingress through simplified concrete crack geometries
- 2011The design of an instrumented rebar for assessment of corrosion in cracked reinforced concretecitations
- 2011Monitoring reinforcement corrosion and corrosion-induced cracking using non-destructive x-ray attenuation measurementscitations
- 2011Monitoring reinforcement corrosion and corrosion-induced cracking using non-destructive x-ray attenuation measurementscitations
- 2011Flow simulation of fiber reinforced self compacting concrete using Lattice Boltzmann method
- 2011Flow simulation of fiber reinforced self compacting concrete using Lattice Boltzmann method
- 2010Finite Element Implementation of a Glass Tempering Model in Three Dimensionscitations
- 2010Finite Element Implementation of a Glass Tempering Model in Three Dimensionscitations
- 2009The Fracture Process of Tempered Soda-Lime-Silica Glasscitations
- 2009Modelling the influence of steel fibres on the electrical resistivity of cementitious composites
- 2008Buckling-driven delamination growth in composite laminates: Guidelines for assessing the threat posed by interlaminar matrix delaminationcitations
- 2008Full Scale Test of a SSP 34m boxgirder 2:Data report
- 2008In-plane shear test of fibre reinforced concrete panels
- 2008Full Scale Test of a SSP 34m boxgirder 2
- 2007The Wedge Splitting Test: Influence of Aggregate Size and Water-to-Cement Ratio
- 2007An implementation of 3D viscoelatic behavior for glass during toughening
- 2007An implementation of 3D viscoelatic behavior for glass during toughening
- 2007On the application of cohesive crack modeling in cementitious materialscitations
- 2007On the application of cohesive crack modeling in cementitious materialscitations
- 2006Modeling of ECC materials using numerical formulations based on plasticity
- 2006Photogrammetric Assessment of Flexure Induced Cracking of Reinforced Concrete Beams under Service Loads
- 2006Nonlinear Fracture Mechanics and Plasticity of the Split Cylinder Testcitations
- 2006Nonlinear Fracture Mechanics and Plasticity of the Split Cylinder Testcitations
- 2006Simulation of strain-hardening in ECC uniaxial test specimen by use of a damage mechanics formulation
- 2006Condition For Strain-Hardening In Ecc Uniaxial Test Specimen
- 2004Early age stress-crack opening relationships for high performance concretecitations
- 2004Axi-Symmetric Simulation of the Slump Flow Test for Self-Compacting
- 2002Three-dimensional finite element modelling of the uniaxial tension test
Places of action
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thesis
Numerisk modellering af formfyldning ved støbning i selvkompakterende beton
Abstract
The present thesis deals with numerical modelling of form filling with Self-Compacting Concrete (SCC). SCC differs from conventional concrete by its increased fluidity, which enables it to fill out the form work without any vibration. The benefits of casting with SCC as compared to conventional concrete may be a decreased construction time and a better working environment if the SCC is managed properly. However, also obstacles may arise from casting with SCC such as issues related to robustness, form work pressure, static segregation and flow induced aggregate migration, thus numerical modelling of form filling with SCC includes a lot of topics. In this thesis it is chosen to focus on the following three topics by the usage of Finite Difference Method (FDM) / Finite Volume Method (FVM) based Computational Flyid Dynamics (CFD) models developed in both FLOW-3D and MATLAB.<br/>The first investigation focussed on the complications involved with modelling a yield stress fluid with a bi-viscosity material model, which is a typical material model used when capturing the non-Newtonian flow behaviour of SCC. The study was carried out by comparing the numerical result and the yield stress based analytical solution of the LCPC-box test. The comparison showed that a relatively good agreement was obtained for both the FLOW-3D and MATLAB model. In addition, the study identified that the agreement improved when the initial viscosity was increased, thus it was impossible for the applied numerical models to be in full agreement with the analytical solution. Based on the investigation it was also found that the LCPC-box test is a highly recommended test to carry out in order to get a better understanding of the numerical settings' implication for a given CFD solver.<br/>Following this, two numerical approaches were developed to investigate their capability of predicting gravity induced aggregate migration in SCC castings. The two FDM/FVM based CFD models differentiated from each other by their aggregate representation, which was a discrete approach (one way momentum coupling) for one of them and a scalar approach for the other. It was found that it was less complicated to implement criteria for the model with the scalar aggregate representation. Subsequently, experimental results from an SCC-like model fluid casting and a real SCC casting were compared with numerical results from the model with the scalar aggregate representation and showed a good agreement. In the case of the SCC though, it was found out that a coupling back from the aggregates to the rheological parameters of the SCC was needed. The study showed also an obstacle for the scalar approach which was the need of a parameter dictating the viscosity of the surrounding fluid in which the aggregate settled. The parameter did not seem to change when changing the casting velocity, but only a future study will show how it changes with different mix compositions of the SCC and thereby finally judge the potential of numerically predicting gravity induced aggregate migration with this scalar approach.<br/>Finally, a single objective genetic algorithm was coupled to the numerical model with the scalar aggregate representation in order to investigate its applicability. Two studies were carried out with the objective to obtain a homogeneous aggregate distribution in a beam SCC casting. The primary difference between the two studies was the implementation of constraints that enabled more realistic and usable casting scenarios to be found. In both studies non-trivial casting scenarios were obtained, which indicated that the coupling between a numerical model capable of predicting gravity induced aggregate migration and an optimization algorithm can be a useful tool. An obstacle for the numerical model used in this study is the calculation time. In the case of evaluating a large vertical casting it was found that the simulation most likely would be too time consuming to finish the optimization study in a reasonable time, but that an algorithm which splits the pressure and velocity calculation may give the necessary calculation speed up.