Publication detail

Experimental study of interfacial heat flux and surface temperature by inverse analysis with thermocouple (fully embedded) during hot steel strip rolling

WEISZ-PATRAULT, D. EHRLACHER, A. LEGRAND, N. LABBE, N. HORSKÝ, J. LUKS, T.

Original Title

Experimental study of interfacial heat flux and surface temperature by inverse analysis with thermocouple (fully embedded) during hot steel strip rolling

Type

conference paper

Language

English

Original Abstract

Knowledge of temperature distribution in the roll is fundamental aspect in cold rolling. An inverse analytical method has been previously developed to determine interfacial heat flux and surface temperature by measuring the temperature with a thermocouple (fully embedded) at only one point inside the roll. On this basis some pilot mill tests have been performed. The temperature sensor, the calibration procedure and rolling tests at different strip rolling conditions (5%, 10%, 15% and 20%) are described. Results show a good agreement with well-known theoretical models. Moreover the CPU times of the method (around 0.05 s by cycle) enable an online control of the rolling process. © (2012) Trans Tech Publications.

Keywords

Experimental study, Inverse sensor, Steel strip rolling,Thermocouple

Authors

WEISZ-PATRAULT, D.; EHRLACHER, A.; LEGRAND, N.; LABBE, N.; HORSKÝ, J.; LUKS, T.

Released

24. 1. 2012

ISBN

9783037853511

Book

2011 International Conference on Management, Manufacturing and Materials Engineering

ISBN

1022-6680

Periodical

Advanced Materials Research

Year of study

452-453

State

Swiss Confederation

Pages from

959

Pages to

963

Pages count

5

BibTex

@inproceedings{BUT147214,
  author="WEISZ-PATRAULT, D. and EHRLACHER, A. and LEGRAND, N. and LABBE, N. and HORSKÝ, J. and LUKS, T.",
  title="Experimental study of interfacial heat flux and surface temperature by inverse analysis with thermocouple (fully embedded) during hot steel strip rolling",
  booktitle="2011 International Conference on Management, Manufacturing and Materials Engineering",
  year="2012",
  journal="Advanced Materials Research",
  volume="452-453",
  pages="959--963",
  doi="10.4028/www.scientific.net/AMR.452-453.959",
  isbn="9783037853511",
  issn="1022-6680"
}