Aufbau und Inbetriebnahme einer Versuchs-ESU-Anlage

Schneider, Reinhold; Paar, Armin; Zeller, Peter; Reiter, Gerhard; Schützenhöfer, Wolfgang; Würzinger, Paul

doi:10.1007/s00501-011-0636-5

Cited by 8 publications

(4 citation statements)

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“…All experiments were conducted on a laboratory scale ESR plant with a mold diameter of 165 mm and a low frequency (up to 5 Hz) AC power supply with a maximum current of 5 kA and a maximum voltage of 100 V. A more detailed description on the plant configuration can be found in ref. . To create a protective atmosphere, the mold was covered with a furnace head.…”

Section: Methodsmentioning

confidence: 99%

Effect of the Slag Composition and a Protective Atmosphere on Chemical Reactions and Non‐Metallic Inclusions during Electro‐Slag Remelting of a Hot‐Work Tool Steel

Schneider

Molnar

Gelder

et al. 2018

steel research int.

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The remelting behavior of the hot-work tool steel X37CrMoV5-1 is investigated with several experimental melts on a lab-scale ESR-plant. The investigated parameters comprise a variation of the slag compositions and the use of a protective nitrogen atmosphere. Variations of the slag composition include slags with different contents of CaF 2 , CaO, and Al 2 O 3 as well as a variation of the SiO 2content in the slag. The remelted ingots are forged and analyzed regarding their chemical composition. The distribution and composition of the non-metallic inclusions (NMI) is studied by an automated SEM-EDX method. Additionally, the chemical composition of the slag after remelting is analyzed. The results show clearly an equilibrium reaction between Si and Al in the steel with SiO 2 and Al 2 O 3 in the slag as well as the effect of oxygen in open ESR operation. A protective atmosphere reduces the Si-losses during remelting, but has no major effect on the number or composition of NMI compared to open remelting. The content of NMI, especially the larger ones, is reduced significantly in all remelting experiments. The majority of the NMI are MA-spinel type except for the CaO-free slag, where alumina inclusions prevail. In general, remelting leads to an almost complete removal of sulfides, a reduction of oxisulfides, and a slight increase of oxides.

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Section: Methodsmentioning

confidence: 99%

Effect of the Slag Composition and a Protective Atmosphere on Chemical Reactions and Non‐Metallic Inclusions during Electro‐Slag Remelting of a Hot‐Work Tool Steel

Schneider

Molnar

Gelder

et al. 2018

steel research int.

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“…Further information on the setup of the plant and low frequency operation mode can be found in. 49,50) The other operating parameters were adjusted to achieve constant melt rates for the slag 30C33A-2S-3M of about 50 kg/h or significantly higher ("MR-high") or lower ("MRlow") melt rates respectively 55 and 70 kg/h ("MR-high") for the slag 38C-42A-2S-4M ("low CaF 2 ", see also Table 2). The central parameter combination (5 kg of the slag 30C-33A-2S-3M and ~50 kg/h melt rate was conducted three times to demonstrate the reproducibility of the results.…”

Section: Process Parametersmentioning

confidence: 99%

Effect of Different Remelting Parameters on Slag Temperature and Energy Consumption during ESR

et al. 2022

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“…All experiments described in this article were conducted on a laboratory‐scale ESR plant. Information on the plant configuration can be found in the study by Schneider et al [ 35 ]…”

Section: Methodsmentioning

confidence: 99%

Effect of the Al₂O₃ Content in the Slag on the Remelting Behavior of a Bearing Steel

Schneider

Molnar

Klösch

et al. 2020

steel research int.

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The service life of roller bearings strongly depends on nonmetallic inclusions (NMIs). Therefore, these steels request highest metallurgical standards in their production. To determine the effect of the Al2O3 content and a protective atmosphere (N2) on the electroslag remelting (ESR) behavior, laboratory scale experiments are conducted. Changes in the composition of the remelted materials and in the slag are determined. In addition, the amount and composition of the NMI prior and after remelting are investigated, and thermodynamic simulations on the formation of NMI are conducted. Changes in the chemical composition can largely be explained by well‐known equilibrium reactions between the slag and the metal. Lowest Al contents in the remelted steel can only be achieved with the Al2O3‐free slag. Higher Al2O3 contents in the slag lead to higher oxygen and sulfur contents in the steel and corresponding higher amounts of NMI after remelting. The use of a protective gas mainly reduced the loss of Si and led to lower O and S contents after remelting with the Al2O3‐free slag. The composition of the NMI changed from alumina type to MgO–Al2O3 (MA)‐spinel type and finally mixed MgO–SiO2 oxides with decreasing Al2O3 contents. These results are confirmed by thermodynamic calculations.

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Aufbau und Inbetriebnahme einer Versuchs-ESU-Anlage

Cited by 8 publications

References 1 publication

Effect of the Slag Composition and a Protective Atmosphere on Chemical Reactions and Non‐Metallic Inclusions during Electro‐Slag Remelting of a Hot‐Work Tool Steel

Effect of the Slag Composition and a Protective Atmosphere on Chemical Reactions and Non‐Metallic Inclusions during Electro‐Slag Remelting of a Hot‐Work Tool Steel

Effect of Different Remelting Parameters on Slag Temperature and Energy Consumption during ESR

Effect of the Al₂O₃ Content in the Slag on the Remelting Behavior of a Bearing Steel

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Aufbau und Inbetriebnahme einer Versuchs-ESU-Anlage

Cited by 8 publications

References 1 publication

Effect of the Slag Composition and a Protective Atmosphere on Chemical Reactions and Non‐Metallic Inclusions during Electro‐Slag Remelting of a Hot‐Work Tool Steel

Effect of the Slag Composition and a Protective Atmosphere on Chemical Reactions and Non‐Metallic Inclusions during Electro‐Slag Remelting of a Hot‐Work Tool Steel

Effect of Different Remelting Parameters on Slag Temperature and Energy Consumption during ESR

Effect of the Al2O3 Content in the Slag on the Remelting Behavior of a Bearing Steel

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Effect of the Al₂O₃ Content in the Slag on the Remelting Behavior of a Bearing Steel