Investigation of the performance of a fluorine free mold powder at a pilot plant

Publikationen: KonferenzbeitragAbstract/Zusammenfassung

Standard

Investigation of the performance of a fluorine free mold powder at a pilot plant. / Riedler, Selina; Gruber, Nathalie; Marschall, Irmtraud et al.
2022. Abstract von 2nd International Workshop of Surface Quality of Continuously Cast Products, Bergamo, Italien.

Publikationen: KonferenzbeitragAbstract/Zusammenfassung

Harvard

Riedler, S, Gruber, N, Marschall, I, Klösch, G & Ilie, S 2022, 'Investigation of the performance of a fluorine free mold powder at a pilot plant', 2nd International Workshop of Surface Quality of Continuously Cast Products, Bergamo, Italien, 1/12/22 - 2/12/22.

APA

Riedler, S., Gruber, N., Marschall, I., Klösch, G., & Ilie, S. (2022). Investigation of the performance of a fluorine free mold powder at a pilot plant. Abstract von 2nd International Workshop of Surface Quality of Continuously Cast Products, Bergamo, Italien.

Vancouver

Riedler S, Gruber N, Marschall I, Klösch G, Ilie S. Investigation of the performance of a fluorine free mold powder at a pilot plant. 2022. Abstract von 2nd International Workshop of Surface Quality of Continuously Cast Products, Bergamo, Italien.

Author

Riedler, Selina ; Gruber, Nathalie ; Marschall, Irmtraud et al. / Investigation of the performance of a fluorine free mold powder at a pilot plant. Abstract von 2nd International Workshop of Surface Quality of Continuously Cast Products, Bergamo, Italien.

Bibtex - Download

@conference{e33431c4fd154073a38d8ea6e30dcb2a,
title = "Investigation of the performance of a fluorine free mold powder at a pilot plant",
abstract = "Conventional mold powders for the continuous casting process contain network formers (SiO2), network modifiers (CaO, MgO, Na2O, K2O), intermediate oxides (Al2O3) and carbon. For reducing the viscosity of the slag system, mold powder normally contains fluoride. However, high amount of fluorine causes excessive erosion of the submerged entry nozzle and fluoride emissions are detrimental to the environment and pose a health hazard. Thus, for developing new F-free mold powders FactSage{\textregistered}- calculations and laboratory tests were performed. The selection of the most suitable composition took into account the melting point, the viscosity and the crystallization behavior. The new designed F-free mold powder and a standard mold powder were tested and compared at a pilot plant, which is equipped with a 5t induction furnace, an electrical plasma heating system, a degassing plant, and a vertical casting machine. For the trials at the pilot plant, the process parameters, like casting speed or oscillation, were fixed. The casting procedures showed an ordinary melting behavior of the mold powders. Furthermore, casting using a F-free mold powder has a lower mold powder consumption. The metallurgical investigations of the bloom (Baumann and macro structure etching) reveal no abnormalities, i.e. the distribution of sulfur in steel is equally and there are no blowholes visible. The mineralogical investigations of the pilot caster slag films show, that the F-free mold powder has a higher crystallization ability and a more complex crystal structure. Furthermore, the wear of the SEN (submerged entry nozzle) was also examined in detail; the wear of the alumina SEN material is lower for the new developed F-free mold slag. To sum up, the results show a satisfactory performance of the F-free mold powder, with a uniform melting behavior, a sufficient lubrication of the strand and a high-quality product. Furthermore, the pilot plant is well suited for testing new designed mold powders. ",
author = "Selina Riedler and Nathalie Gruber and Irmtraud Marschall and Gerald Kl{\"o}sch and Sergiu Ilie",
year = "2022",
language = "English",
note = "2nd International Workshop of Surface Quality of Continuously Cast Products, IWSQ-2 ; Conference date: 01-12-2022 Through 02-12-2022",

}

RIS (suitable for import to EndNote) - Download

TY - CONF

T1 - Investigation of the performance of a fluorine free mold powder at a pilot plant

AU - Riedler, Selina

AU - Gruber, Nathalie

AU - Marschall, Irmtraud

AU - Klösch, Gerald

AU - Ilie, Sergiu

PY - 2022

Y1 - 2022

N2 - Conventional mold powders for the continuous casting process contain network formers (SiO2), network modifiers (CaO, MgO, Na2O, K2O), intermediate oxides (Al2O3) and carbon. For reducing the viscosity of the slag system, mold powder normally contains fluoride. However, high amount of fluorine causes excessive erosion of the submerged entry nozzle and fluoride emissions are detrimental to the environment and pose a health hazard. Thus, for developing new F-free mold powders FactSage®- calculations and laboratory tests were performed. The selection of the most suitable composition took into account the melting point, the viscosity and the crystallization behavior. The new designed F-free mold powder and a standard mold powder were tested and compared at a pilot plant, which is equipped with a 5t induction furnace, an electrical plasma heating system, a degassing plant, and a vertical casting machine. For the trials at the pilot plant, the process parameters, like casting speed or oscillation, were fixed. The casting procedures showed an ordinary melting behavior of the mold powders. Furthermore, casting using a F-free mold powder has a lower mold powder consumption. The metallurgical investigations of the bloom (Baumann and macro structure etching) reveal no abnormalities, i.e. the distribution of sulfur in steel is equally and there are no blowholes visible. The mineralogical investigations of the pilot caster slag films show, that the F-free mold powder has a higher crystallization ability and a more complex crystal structure. Furthermore, the wear of the SEN (submerged entry nozzle) was also examined in detail; the wear of the alumina SEN material is lower for the new developed F-free mold slag. To sum up, the results show a satisfactory performance of the F-free mold powder, with a uniform melting behavior, a sufficient lubrication of the strand and a high-quality product. Furthermore, the pilot plant is well suited for testing new designed mold powders.

AB - Conventional mold powders for the continuous casting process contain network formers (SiO2), network modifiers (CaO, MgO, Na2O, K2O), intermediate oxides (Al2O3) and carbon. For reducing the viscosity of the slag system, mold powder normally contains fluoride. However, high amount of fluorine causes excessive erosion of the submerged entry nozzle and fluoride emissions are detrimental to the environment and pose a health hazard. Thus, for developing new F-free mold powders FactSage®- calculations and laboratory tests were performed. The selection of the most suitable composition took into account the melting point, the viscosity and the crystallization behavior. The new designed F-free mold powder and a standard mold powder were tested and compared at a pilot plant, which is equipped with a 5t induction furnace, an electrical plasma heating system, a degassing plant, and a vertical casting machine. For the trials at the pilot plant, the process parameters, like casting speed or oscillation, were fixed. The casting procedures showed an ordinary melting behavior of the mold powders. Furthermore, casting using a F-free mold powder has a lower mold powder consumption. The metallurgical investigations of the bloom (Baumann and macro structure etching) reveal no abnormalities, i.e. the distribution of sulfur in steel is equally and there are no blowholes visible. The mineralogical investigations of the pilot caster slag films show, that the F-free mold powder has a higher crystallization ability and a more complex crystal structure. Furthermore, the wear of the SEN (submerged entry nozzle) was also examined in detail; the wear of the alumina SEN material is lower for the new developed F-free mold slag. To sum up, the results show a satisfactory performance of the F-free mold powder, with a uniform melting behavior, a sufficient lubrication of the strand and a high-quality product. Furthermore, the pilot plant is well suited for testing new designed mold powders.

M3 - Abstract

T2 - 2nd International Workshop of Surface Quality of Continuously Cast Products

Y2 - 1 December 2022 through 2 December 2022

ER -