Detail publikace

Influence of Parameters of Hydraulic Descaling on Temperature Losses and Surface Quality of Rolled Material

KOTRBÁČEK, P. HORSKÝ, J. RAUDENSKÝ, M. POHANKA, M.

Originální název

Influence of Parameters of Hydraulic Descaling on Temperature Losses and Surface Quality of Rolled Material

Anglický název

Influence of Parameters of Hydraulic Descaling on Temperature Losses and Surface Quality of Rolled Material

Jazyk

en

Originální abstrakt

Hydraulic descaling is a process of removing the oxide from the hot steel surface. Surface quality after descaling is fundamental for the final surface quality of a roll product. Aspect of heat extraction, as a part of descaling process, is not usually seriously considered. Surface sub-cooling can negatively influence the demanded temperature field in the rolled material. The main goal of the paper is to show how the setting of hydraulic descaling parameters can influence heat transfer and the final temperature field in the rolled material. Experimental work was concentrated on the study of descaling in relation to heat transfer and the quality of scale removing from the surface. Two types of measurements were implemented. The first one is a measurement of temperature drop when a product is passing under the nozzle (heat transfer test). The second type is a study of the surface quality where a defined layer of oxides is sprayed and its remaining thickness is evaluated. The heat transfer test is evaluated by inverse task and the results are prepared in a form of boundary conditions suitable for using in the numerical model. The computation done by numerical model of descaling demonstrates the influence of various parameters on the process efficiency. Understanding of the hydraulic descaling mechanism enables the optimization of spraying parameters and its influence on the rolling technology.

Anglický abstrakt

Hydraulic descaling is a process of removing the oxide from the hot steel surface. Surface quality after descaling is fundamental for the final surface quality of a roll product. Aspect of heat extraction, as a part of descaling process, is not usually seriously considered. Surface sub-cooling can negatively influence the demanded temperature field in the rolled material. The main goal of the paper is to show how the setting of hydraulic descaling parameters can influence heat transfer and the final temperature field in the rolled material. Experimental work was concentrated on the study of descaling in relation to heat transfer and the quality of scale removing from the surface. Two types of measurements were implemented. The first one is a measurement of temperature drop when a product is passing under the nozzle (heat transfer test). The second type is a study of the surface quality where a defined layer of oxides is sprayed and its remaining thickness is evaluated. The heat transfer test is evaluated by inverse task and the results are prepared in a form of boundary conditions suitable for using in the numerical model. The computation done by numerical model of descaling demonstrates the influence of various parameters on the process efficiency. Understanding of the hydraulic descaling mechanism enables the optimization of spraying parameters and its influence on the rolling technology.

Dokumenty

BibTex


@article{BUT46458,
  author="Petr {Kotrbáček} and Jaroslav {Horský} and Miroslav {Raudenský} and Michal {Pohanka}",
  title="Influence of Parameters of Hydraulic Descaling on Temperature Losses and Surface Quality of Rolled Material",
  annote="Hydraulic descaling is a process of removing the oxide from the hot steel surface. Surface quality after descaling is fundamental for the final surface quality of a roll product. Aspect of heat extraction, as a part of descaling process, is not usually seriously considered. Surface sub-cooling can negatively influence the demanded temperature field in the rolled material. The main goal of the paper is to show how the setting of hydraulic descaling parameters can influence heat transfer and the final temperature field in the rolled material. 
Experimental work was concentrated on the study of descaling in relation to heat transfer and the quality of scale removing from the surface. Two types of measurements were implemented. The first one is a measurement of temperature drop when a product is passing under the nozzle (heat transfer test). The second type is a study of the surface quality where a defined layer of oxides is sprayed and its remaining thickness is evaluated. The heat transfer test is evaluated by inverse task and the results are prepared in a form of boundary conditions suitable for using in the numerical model. 
The computation done by numerical model of descaling demonstrates the influence of various parameters on the process efficiency. Understanding of the hydraulic descaling mechanism enables the optimization of spraying parameters and its influence on the rolling technology.
",
  address="GRIPS media GmbH",
  chapter="46458",
  howpublished="print",
  institution="GRIPS media GmbH",
  journal="Steel Grips, Journal of steel and related materials",
  number="2",
  volume="2004",
  year="2004",
  month="september",
  pages="367--370",
  publisher="GRIPS media GmbH",
  type="journal article - other"
}