Mikael Thunman scite author profile

Mikael Thunman

4Publications

108Citation Statements Received

55Citation Statements Given

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107

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KTH Royal Institute of Technology

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Aluminum Deoxidation Equilibrium of Molten Iron–Aluminum Alloy with Wide Aluminum Composition Range at 1 873 K

et al. 2009

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Al-O equilibria in molten Fe-Al alloys were experimentally investigated. Molten steel with varying Al content (0.01-10 mass%) was equilibrated with a pure Al 2 O 3 (s) crucible at 1 873 K in an Ar atmosphere with 3 vol% H 2 . The oxygen content of steel with Al content higher than 1.0 mass% was found to be much lower than that found in previous works, while the oxygen content for Al content less than 1 mass% was found to be slightly higher, resulting in a smaller equilibrium constant. The interaction parameters as well as the equilibrium constant of the Al-O equilibria in molten steel at 1 873 K were reevaluated in the present study. The equilibrium for the Al deoxidation of molten steel was well represented up to 10.0 mass% Al using the reevaluated parameters.KEY WORDS: deoxidation; aluminum; equilibrium constant; interaction parameters. 1483© 2009 ISIJ (and a few equilibria at other temperatures) measured in previous studies.

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Origins of Non-metallic Inclusions and their Chemical Development during Ladle Treatment

Thunman

Sichen

2008

steel research international

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In the present work, steel, slag and refractory samples were taken from the ladle at OVAKO Steel in Hofors, Sweden. The steel samples were analysed in LOM, SEM and OES PDA. The chemical compositions of the inclusions were determined by EDS. According to the morphologies and compositions, the inclusions were classified into 5 different types, namely, (1) type-1, alumina inclusions, (2) type-2, calcium aluminate, (3) type-3, splnel-calclum aluminate, (4) type-4, calcium aluminate surrounded by a CaS shell, and (5) spinel-calcium aluminate surrounded by a CaS shell. Ladle glaze was found to be a major supplier of the inclusions, while the inclusions brought over from EAF could be another important source. The results of OES PDA showed that removal of inclusions took place mostly during the vacuum degassing period.The characteristics of the non-equilibrium decarburization process during the vacuum circulation (RH) refining of molten steel have been considered and analysed. On the basis of the fundamentals of metallurgical reaction engineering and non-equilibrium thermodynamics, as well as the two-fluid model for gas-liquid two-phase flow and a modified k-s model for turbulent flow, a novel three-dimensional mathematical model for the process has been proposed and developed. The details of the model, including the establishment of the governing equations and the especially modified two-equation k-s model, the determination of the appropriate source terms and boundary conditions and others, have been presented. The related parameters of the model have been discussed and determined for the decarburization refining process of molten steel in a 90-t multifunction RH degasser under RH and RH-KTB operating conditions.

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Study on the Formation of Open‐Eye and Slag Entrainment in Gas Stirred Ladle

Thunman

Eckert

Hennig

et al. 2007

steel research international

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Laboratory experiments were carried out to study the phenomena related to open‐eye formation in ladle treatment. Ga‐In‐Sn alloy with a melting temperature of 283 K was used to simulate the liquid steel, while MgCI2‐Glycerol(87%) solution as well as HCl solution were used to simulate the ladle slag. No open‐eye was formed at lower gas flow rates, but, occurred when gas flow reached a critical rate. This critical gas flow rate was found to depend significantly on the height of the top liquid. No noticeable amount of top liquid was observed in any of the samples taken from the metal bulk during gas stirring. To confirm this aspect, samples of slag‐metal interface were taken around the open‐eye in an industrial gas stirred steel ladle. No entrapped slag droplet was found in the solidified steel within the region between the interface and 2 cm from the interface. The accordance of the laboratory and industrial results suggests that the entrainment of slag into the steel bulk around the open‐eye cannot be considered as the major contribution to inclusion formation.

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Effects of slag composition and cooling rate on formation of glaze on MgO refractory

Gran

Thunman

Sichen

2010

Ironmaking & Steelmaking

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The formation of a slag glaze layer on dense and porous MgO rods was studied by dipping MgO rods into liquid slag at 1873 K and thereafter cooling the rods at a predetermined cooling rate. Three different slag compositions and three different cooling rates were employed. It was found that the phases formed upon cooling were mostly dependent on slag composition and to a minor extent on the cooling rate. The initially liquid slag was transformed into crystalline phases for all the samples except the ones terminated at 1573 K and one of the samples with high cooling rate. In addition, the three slags were equilibrated at 1773, 1673 and 1573 K in order to get an understanding of the equilibrium phases and their relationship during cooling. On the basis of the experimental results, the mechanism regarding entrainment of exogenous inclusions from the refractory lining was also discussed.

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Mikael Thunman

Aluminum Deoxidation Equilibrium of Molten Iron–Aluminum Alloy with Wide Aluminum Composition Range at 1 873 K

Origins of Non-metallic Inclusions and their Chemical Development during Ladle Treatment

Study on the Formation of Open‐Eye and Slag Entrainment in Gas Stirred Ladle

Effects of slag composition and cooling rate on formation of glaze on MgO refractory

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