Further development and validation of IDS by means of selected experiments
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Proceedings of 9th ECCC European Continuous Casting Conference - ECCC2017. Vienna: ASMET, 2017.
Research output: Chapter in Book/Report/Conference proceeding › Conference contribution
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TY - GEN
T1 - Further development and validation of IDS by means of selected experiments
AU - Presoly, Peter
AU - Bernhard, Christian
AU - Fuchs, Nora
AU - Miettinen, Jyrki
AU - Louhenkilpi, Seppo
AU - Laine, Jukka
PY - 2017/6/27
Y1 - 2017/6/27
N2 - Microsegregation and material property calculations are the basis for solidification calculations which are essential to understand the continuous casting process. The program IDS (InterDendritic Solidification) is a thermodynamic-kinetic-empirical tool for solidification, microstructure and material properties of steels, which has been developed at Aalto University in Finland since 1984. The heart of the model is the large thermodynamic, diffusion and microstructure data bank made through own assessment work. Particularly, the thermodynamic database of IDS has been clearly extended during the last years. The quality of the calculations depends significantly on the underlying thermodynamic data. A cooperation has been carried out with the Montanuniversitaet Leoben to further development and validate the IDS databases. A special research field at the Chair of Ferrous Metallurgy in Leoben are high-temperature experiments to investigate the transformation and casting behaviour in the lab, e.g. to identify peritectic steel grades. A portfolio of different laboratory experiments will be presented to validate the calculation results and to further develop the program IDS. A highlight of this work was the optimisation of the silicon and manganese interaction in Fe-C-Si-Mn system based on systematic DSC measurements.
AB - Microsegregation and material property calculations are the basis for solidification calculations which are essential to understand the continuous casting process. The program IDS (InterDendritic Solidification) is a thermodynamic-kinetic-empirical tool for solidification, microstructure and material properties of steels, which has been developed at Aalto University in Finland since 1984. The heart of the model is the large thermodynamic, diffusion and microstructure data bank made through own assessment work. Particularly, the thermodynamic database of IDS has been clearly extended during the last years. The quality of the calculations depends significantly on the underlying thermodynamic data. A cooperation has been carried out with the Montanuniversitaet Leoben to further development and validate the IDS databases. A special research field at the Chair of Ferrous Metallurgy in Leoben are high-temperature experiments to investigate the transformation and casting behaviour in the lab, e.g. to identify peritectic steel grades. A portfolio of different laboratory experiments will be presented to validate the calculation results and to further develop the program IDS. A highlight of this work was the optimisation of the silicon and manganese interaction in Fe-C-Si-Mn system based on systematic DSC measurements.
KW - Interdendritic solidification, CALPHAD, microsegregation, phase diagram, DTA / DSC, HT-LSCM, dipping test
UR - http://eccc2017.org/
M3 - Conference contribution
BT - Proceedings of 9th ECCC European Continuous Casting Conference - ECCC2017
PB - ASMET
CY - Vienna
ER -