Publication detail

NUMERICAL SIMULATION AND VERIFICATION OF ROLL TEMPERATURE HISTORY DURING ROLLING CAMPAIGN

KOTRBÁČEK, P. HORSKÝ, J. LUKS, T. POHANKA, M.

Original Title

NUMERICAL SIMULATION AND VERIFICATION OF ROLL TEMPERATURE HISTORY DURING ROLLING CAMPAIGN

English Title

NUMERICAL SIMULATION AND VERIFICATION OF ROLL TEMPERATURE HISTORY DURING ROLLING CAMPAIGN

Type

abstract

Language

en

Original Abstract

This paper describes the process of experimental and numerical study of thermal load of working rolls in the conditions of hot rolling. Realistic cooling boundary conditions are obtained using special laboratory bench and methodology. The full-scale laboratory experiments use rows of nozzles that are identical in configuration to those at the rolling mill and the same operation conditions, including pressures, velocities and coolant temperatures, are also used.

English abstract

This paper describes the process of experimental and numerical study of thermal load of working rolls in the conditions of hot rolling. Realistic cooling boundary conditions are obtained using special laboratory bench and methodology. The full-scale laboratory experiments use rows of nozzles that are identical in configuration to those at the rolling mill and the same operation conditions, including pressures, velocities and coolant temperatures, are also used.

Keywords

roll cooling, rolling mill, heat transfer, nozzle, roll crown, simulation, rolling campaign

Released

22.04.2015

Publisher

IOM Communicatiins Ltd

Location

London, United Kingdom

Pages from

1

Pages to

11

Pages count

11

BibTex


@misc{BUT114785,
  author="Petr {Kotrbáček} and Jaroslav {Horský} and Tomáš {Luks} and Michal {Pohanka}",
  title="NUMERICAL SIMULATION AND VERIFICATION OF ROLL
TEMPERATURE HISTORY DURING ROLLING CAMPAIGN",
  annote="This paper describes the process of experimental and numerical study of thermal load of working rolls in
the conditions of hot rolling. Realistic cooling boundary conditions are obtained using special laboratory
bench and methodology. The full-scale laboratory experiments use rows of nozzles that are identical in
configuration to those at the rolling mill and the same operation conditions, including pressures, velocities
and coolant temperatures, are also used.",
  address="IOM Communicatiins Ltd",
  booktitle="Roll5 2015",
  chapter="114785",
  howpublished="electronic, physical medium",
  institution="IOM Communicatiins Ltd",
  year="2015",
  month="april",
  pages="1--11",
  publisher="IOM Communicatiins Ltd",
  type="abstract"
}