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11th International Rolling Conference (IRC 2019) — vol. 11, num.11 (2019)
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A customized version of the Microsim-PM software for one Steckel rolling mill was built and adapted for specific mill parameters. The focus of this study is to use this model, which predicts the austenite grain size distribution evolution during rolling, to understand and quantify metallurgical issues happening during hot rolling. This will allow the steel mill to optimize the rolling process and chemical composition before the first industrial trial. Materials rolled for final thicknesses of 4.75; 6.30 and 12.5 mm of a carbon manganese steel and a microalloyed steel were selected to tailor the equations used by the model and to accurately reproduce the reality of the Steckel mill. This paper analyses the results from the customized model and compares them to mill data and final microstructure. Measured and predicted Mean Flow Stress (MFS) values are compared. After rolling, the material is subjected to accelerated cooling using laminar cooling. These cooling curves obtained from mill data are also considered to analyze the final microstructure characterized for all the cases using EBSD. The quantification of the microstructure allows for a better understanding of the relationship between chemical composition, process parameters and mechanical properties.
Palavras-chave
Modelling, Austenite, Ferrite, EBSD, Microstructure, Mean Flow Stress
Como citar
Souza, Altair Lucio de;
Oliveira, Alisson Paulo de;
Martins, Cleiton Arlindo;
Borges, Jacson Morais;
Lino, Joao Junio Pereira;
Cohn, Jorge Adam Cleto;
Teixeira, Luciano Morais;
Isasti, Nerea;
Pereda, Beatriz;
Uranga, Pello.
MICROSTRUCTURAL EVOLUTION DURING STECKEL ROLLING AND EBSD ANALYSES OF FINAL MICROSTRUCTURE.
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p. 599-608.
In: 11th International Rolling Conference (IRC 2019),
São Paulo,
2019.
ISSN: -
, DOI 10.5151/9785-9785-32343