Publication detail

CONTROL ON SOFT REDUCTION OF CONTINUOUS CASTING SLAB BY THERMAL MODEL

ŠTĚTINA, J. RAMÍK, P. KATOLICKÝ, J.

Original Title

CONTROL ON SOFT REDUCTION OF CONTINUOUS CASTING SLAB BY THERMAL MODEL

Type

abstract

Language

English

Original Abstract

Internal quality cast steel slabs to the radial continuous casting significantly affects the setting of support rollers. The steel passes through support rolls cools from 1400 C to a temperature of 600 C, therefore, leads to shrinkage of the material, which must respect the reduction setting profile. Figure 1 is a comparison of the density of steel at temperature for four typical carbon steel. In the temperature range 500 to1400 C shows different courses density. When setting reduction profile by means of rollers fixed to be a compromise for all the cast steel. During operation of the continuous casting rolls wear occurs, so this effect must respect reduction setting profile by means of rollers. For optimal setting of support rollers respects these compromises is used the 3D thermal model2. This reduction setting can not be optimized to ensure the production of slabs without internal defects. New the machine for continuous casting (caster) of steel are fitted with so-called soft reduction ie the managing system operated rollers position control, which allows you to set reduction profile for each particular steel, including respect for wear in cylinders. The control system is bound on on-line 3D thermal model3.

Keywords

soft reduction, concasting, temerature field

Authors

ŠTĚTINA, J.; RAMÍK, P.; KATOLICKÝ, J.

Released

20. 10. 2014

Publisher

INŠTITUT ZA KOVINSKE MATERIALE IN TEHNOLOGIJE

Location

LJUBLJANA

ISBN

978-961-92518-7-4

Pages from

223

Pages to

223

Pages count

1

BibTex

@misc{BUT110347,
  author="Josef {Štětina} and Pavel {Ramík} and Jaroslav {Katolický}",
  title="CONTROL ON SOFT REDUCTION OF CONTINUOUS CASTING SLAB BY THERMAL MODEL",
  year="2014",
  pages="223--223",
  publisher="INŠTITUT ZA KOVINSKE MATERIALE IN TEHNOLOGIJE",
  address="LJUBLJANA",
  isbn="978-961-92518-7-4",
  note="abstract"
}