Study on the thermodynamic stability and evolution of inclusions in Al–Ti deoxidized steel

To investigate the thermodynamic stability and the evolution process of inclusions in the Al–Ti deoxidized steels, both laboratory experiments and thermodynamic calculations were conducted in the present work. Scanning electron microscope-energy dispersive spectrometer (SEM-EDS) and Al –Ti –TiO phas...

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Bibliographic Details
Published inHigh temperature materials and processes Vol. 41; no. 1; pp. 206 - 215
Main Authors Wang, Jun, Wang, Linzhu, Li, Xiang, Li, Junqi, Chen, Chaoyi, Li, Changrong, Zhuang, Changling
Format Journal Article
LanguageEnglish
Published Berlin De Gruyter 03.05.2022
Walter de Gruyter GmbH
Subjects
Aluminum oxide
Composition
deoxidize
Deoxidizing
Evolution
inclusions
Iron
Mathematical analysis
Nonmetallic inclusions
Phase diagrams
Solidification
Stability
Steel
Thermodynamics
Titanium dioxide
Titanium oxides
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Summary:To investigate the thermodynamic stability and the evolution process of inclusions in the Al–Ti deoxidized steels, both laboratory experiments and thermodynamic calculations were conducted in the present work. Scanning electron microscope-energy dispersive spectrometer (SEM-EDS) and Al –Ti –TiO phase diagrams were used to investigate the composition of oxide inclusions after adding various contents of Al and Ti. The results show that the TiO content of inclusions increases with the increase in titanium addition in steel ranging from 0.31 to 1.88%, and the typical inclusions are transferred from pure Al to multi-phase Al–Ti complex inclusions and Al –TiO complex inclusions with uniform composition. The TiO content in the inclusions first increased and then decreased with the extension of deoxidation time in the steels with deoxidants of [% Al] = 0.055 and [% Al] = 0.71, and the content of TiO in the inclusions is highest at 360 s of deoxidation. There is a small amount of pure titanium oxide and liquid Al –TiO composite inclusions in the steel with deoxidants of [% Al] = 0.13 and [% Ti] = 1.88 at 120 s of deoxidation, and then this part of inclusions gradually turns into the Al -rich phase. The predominance diagrams of the Al–Ti–O–Fe system were obtained based on the classical thermodynamic calculation and FactSage calculation with different databases and products. The calculated results were compared with the experimental data, and the discrepancies on the stable region of oxides in the predominance diagrams were discussed. The evolution and transformation of inclusions during the solidification process were analyzed based on FactSage calculation.
ISSN:2191-0324
0334-6455
2191-0324
DOI:10.1515/htmp-2022-0015