| 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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Bernhard, Christian
Universidad de Cantabria
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (53/53 displayed)
- 2024In situ study and assessment of the phosphorus-induced solute drag effect on the grain boundary mobility of austenitecitations
- 2024Experimental investigation and computational thermodynamics of the quaternary system Fe-C-Mn-S
- 2024On the Role of Tramp Elements for Surface Defect Formation in Continuous Casting of Steelcitations
- 2024The simple microsegregation model for steel considering MnS formation in the liquid and solid phasescitations
- 2024Influence of Silicon and Tramp Elements on the High-temperature Oxidation of Steel in Direct Casting and Rolling Processes
- 2024Critical Examination of the Representativeness of Austenite Grain Growth Studies Performed In Situ Using HT-LSCM and Application to Determine Growth-inhibiting Mechanismscitations
- 2023The influence of intergranular oxidation on surface crack formation in continuous casting of steelcitations
- 2023Grain boundary mobility of γ-Fe in high-purity iron during isothermal annealingcitations
- 2023Precipitation behavior of hexagonal carbides in a C containing intermetallic γ-TiAl based alloycitations
- 2023Classification of peritectic steels by experimental methods, computational thermodynamics and plant data: An Overview
- 2023Hot tear prediction in large sized high alloyed turbine steel parts - experimental based calibration of mechanical data and model validation
- 2023Decomposition of γ-Fe in 0.4C-1.8Si-2.8Mn-0.5Al steel during a continuous cooling process: A comparative study using in-situ HT-LSCM, DSC and dilatometrycitations
- 2023Impurities and tramp elements in steel: Thermodynamic aspects and the application to solidification processes
- 2023High-temperature oxidation of steel recycled from scrap: The role of tramp elements and their influence on oxidation behavior
- 2023Einfluss der Düsenparameter auf die Kühlbedingungen in der Sekundärkühlzone einer Brammengießanlagecitations
- 2022High temperature thermodynamics of the Fe-C-Mn system; new experimental data for the Fe-C-10 and 20 wt.-% Mn system
- 2022A Near-Process 2D Heat-Transfer Model for Continuous Slab Casting of Steelcitations
- 2022Primary Carbide Formation in Tool Steelscitations
- 2022Selected metallurgical models for computationally efficient prediction of quality-related issues in continuous slab casting of steel
- 2022Experimental thermodynamics for improving CALPHAD optimizations at the Chair of Ferrous Metallurgy
- 2021Characterization of the gamma-loop in the Fe-P system by coupling DSC and HT-LSCM with complementary in-situ experimental techniquescitations
- 2021Simulation of the Refining Process of Ultra-Low Carbon (ULC) Steelcitations
- 2021Potential and limitations of direct austenite grain growth measurement by means of HT-LSCMcitations
- 2021Investigations on hot tearing in a continuous slab caster: Numerical modelling combined with analysis of plant results
- 2021Influence of Slag Viscosity and Composition on the Inclusion Content in Steelcitations
- 2020Electron-phonon-driven three-dimensional metallicity in an insulating cupratecitations
- 2020Electron-phonon-driven three-dimensional metallicity in an insulating cupratecitations
- 2020Electron-phonon-driven three-dimensional metallicity in an insulating cupratecitations
- 2020Utilization of Experimental Data as Boundary Conditions for the Solidification Model Tempsimu-3Dcitations
- 2020Study on the Possible Error Due to Matrix Interaction in Automated SEM/EDS Analysis of Nonmetallic Inclusions in Steel by Thermodynamics, Kinetics and Electrolytic Extractioncitations
- 2020Experimental Study of High Temperature Phase Equilibria in the Iron-Rich Part of the Fe-P and Fe-C-P Systemscitations
- 2020HT-LSCM as a Tool for Indirect Determination of Precipitates by Real-Time Grain Growth Observationscitations
- 2020Study on inclusion evolution through Si/Mn deoxidation in medium-carbon steelscitations
- 2020Experimental Quantification of Critical Parameters for Prediction of Surface Crack Formation in Continuous Castingcitations
- 2020Investigation of Fe–C–Cr and Fe–C–Cr–Ni-based systems with the use of DTA and HT-LSCM methodscitations
- 2019Investigation of water droplet impingement under conditions of the secondary cooling zone of a continuous caster
- 2019Study on the Influence of FeTi‐Addition on the Inclusion Population in Ti‐Stabilized ULC Steels and Its Consequences for SEN‐Cloggingcitations
- 2019High precious phase diagrams – a roadmap for a successful casting processing
- 2019The Role of FeTi Addition to Micro-inclusions in the Production of ULC Steel Grades via the RH Process Routecitations
- 2019In-situ Untersuchung von Austenitkornwachstumsprozessen in Stählen mittels Hochtemperatur Laser-Scanning-Konfokal-Mikroskopcitations
- 2019Evaluation of AHSS concepts with a focus on the product properties and appropriate casting characteristics of Arvedi ESP thin slab casterscitations
- 2018Energy efficiency in secondary cooling - New generation of air-mist nozzles with reduced air consumption and high cooling efficiency
- 2017Charakterisierung von azikularferritischen Phasenanteilen in HSLA- Stählen und deren Auswirkung auf die mechanischen Kennwerte bei Kleinstproben
- 2017The potential for grain refinement of a super austenitic stainless steel with a cerium grain refiner
- 2017Modeling Inclusion Formation during Solidification of Steelcitations
- 2017Influence of Silicon and Manganese on the Peritectic Range for Steel Alloys
- 2017Further development and validation of IDS by means of selected experiments
- 2016HT-LSCM - A valuable tool for surface microstructure investigations
- 2016Study on Oxide Inclusion Dissolution in Secondary Steelmaking Slags using High Temperature Confocal Scanning Laser Microscopycitations
- 2016On the modelling of microsegregation in steels involving thermodynamic databases
- 2013Importance of Spin-Orbit Interaction for the Electron Spin Relaxation in Organic Semiconductorscitations
- 2012Effect of titanium on the solidification and post-solidification microstructure of high-strength steel welds
- 2012Thermo-mechanical properties of an Fe–Mn–Si–Cr–Ni–VC shape memory alloy with low transformation temperaturecitations
Places of action
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document
HT-LSCM - A valuable tool for surface microstructure investigations
Abstract
Over the last 20 years, high-temperature Laser Scanning Confocal Microscopy (HT-LSCM) has been established as in-situ observation method for high temperature microstructure evolution in steels. The related phenomena, such as the coarsening of austenite grains or the formation of pro-eutectoide ferrite along the austenite grain boundaries are commonly seen as major causes for the development of the so-called second ductility trough and consequently the formation of surface defects in continuous casting.<br/>The Montanuniversitaet Leoben and the Materials Center Leoben operate a HT-LSCM since 2010. The present work deals with the previous experiences in the observation of microstructure evolution under conditions close to the continuous casting process.<br/>HT-LSCM provides the simulation of a wide variety of thermal cycles such as the cooling cycle of a strand surface. Samples come either from production or from laboratory (re)melting facilities.Austenite and δ-ferrite grain growth as well as phase transformations become visible. <br/>The presentation will focus on two examples for current research activities:<br/>-Isothermal and non-isothermal observation of austenite grain growth: HT-LSCM prooved as flexible and efficient tool to observe the growth of austenite grains at temperature between 850 and 1250 °C. The grains size is determined by digital image analysis from the recorded videos. The measurements are the basis for the adjustment of parameters for grain growth models as well as precipitation kinetics. The influence of certain alloying elements on the grain growth kinetics will be briefely discussed.<br/>-The Montanuniversitaet Leoben also developed an in-situ bending experiment to simulate the formation of surface defects. HT-LSCM has become an essential tool to simulate the thermal cycle of the bending experiments and thus to observe the microstructure evolution such as the austenite to ferrite transformation. This turned out to be essential for the interpretation of the bending results. The derived phase transformation temperatures were cross-checked with dilatometer measurements and results from commercial software packages such as IDS or JMatPro. <br/>Finally some results for recently developed surface cooling strategies will be presented: The results show the austenite to ferrite or bainite transformation during temporary undercooling of the strand surface and the formation of fine austenite grains during the subsequent reheating. This so-called “surface structure control by cooling” strategy was simulated for a microalloyed steel and the results will be briefly discussed.<br/>