Dynamical model of the lateral strip motion in a tandem hot rolling mill

Andreas Ettl; Andreas Steinböck; Andreas Kugi

doi:10.1016/j.jmapro.2025.06.018

Dynamical model of the lateral strip motion in a tandem hot rolling mill

Andreas Ettl
, Andreas Steinböck
, Andreas Kugi

TU Wien, Automation & Control Institute (ACIN)

Research output: Contribution to journal › Article › peer-review

Abstract

Laterally asymmetric rolling conditions can cause a lateral motion (snaking) of the strip in flat rolling. This lateral motion can deteriorate the product quality due to contact with plant components or lead to collisions and, consequently, downtimes of the plant. A model-based snaking controller can ensure safe plant operation and consistent product quality. This paper presents a control-orientated mathematical model of the lateral strip motion. It can serve as a basis for observer and control design because of its low-dimensional and computationally inexpensive structure and low effort required for parameterization. The proposed model is based on first principles. Unknown or uncertain parameters are estimated by solving tailored optimization problems. The model is then validated by measurements from an industrial plant. This validation confirms the model’s high accuracy and the small computational effort.

Original language	English
Pages (from-to)	372-386
Number of pages	15
Journal	Journal of Manufacturing Processes
Volume	151
DOIs	https://doi.org/10.1016/j.jmapro.2025.06.018
Publication status	Published - 15 Oct 2025

Research Field

Complex Dynamical Systems

Keywords

Hot strip rolling
Dynamical model
Lateral motion
Model validation
Parameter estimation

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10.1016/j.jmapro.2025.06.018Licence: CC BY

Cite this

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title = "Dynamical model of the lateral strip motion in a tandem hot rolling mill",

abstract = "Laterally asymmetric rolling conditions can cause a lateral motion (snaking) of the strip in flat rolling. This lateral motion can deteriorate the product quality due to contact with plant components or lead to collisions and, consequently, downtimes of the plant. A model-based snaking controller can ensure safe plant operation and consistent product quality. This paper presents a control-orientated mathematical model of the lateral strip motion. It can serve as a basis for observer and control design because of its low-dimensional and computationally inexpensive structure and low effort required for parameterization. The proposed model is based on first principles. Unknown or uncertain parameters are estimated by solving tailored optimization problems. The model is then validated by measurements from an industrial plant. This validation confirms the model{\textquoteright}s high accuracy and the small computational effort.",

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author = "Andreas Ettl and Andreas Steinb{\"o}ck and Andreas Kugi",

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doi = "10.1016/j.jmapro.2025.06.018",

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journal = "Journal of Manufacturing Processes",

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T1 - Dynamical model of the lateral strip motion in a tandem hot rolling mill

AU - Ettl, Andreas

AU - Steinböck, Andreas

AU - Kugi, Andreas

PY - 2025/10/15

Y1 - 2025/10/15

N2 - Laterally asymmetric rolling conditions can cause a lateral motion (snaking) of the strip in flat rolling. This lateral motion can deteriorate the product quality due to contact with plant components or lead to collisions and, consequently, downtimes of the plant. A model-based snaking controller can ensure safe plant operation and consistent product quality. This paper presents a control-orientated mathematical model of the lateral strip motion. It can serve as a basis for observer and control design because of its low-dimensional and computationally inexpensive structure and low effort required for parameterization. The proposed model is based on first principles. Unknown or uncertain parameters are estimated by solving tailored optimization problems. The model is then validated by measurements from an industrial plant. This validation confirms the model’s high accuracy and the small computational effort.

AB - Laterally asymmetric rolling conditions can cause a lateral motion (snaking) of the strip in flat rolling. This lateral motion can deteriorate the product quality due to contact with plant components or lead to collisions and, consequently, downtimes of the plant. A model-based snaking controller can ensure safe plant operation and consistent product quality. This paper presents a control-orientated mathematical model of the lateral strip motion. It can serve as a basis for observer and control design because of its low-dimensional and computationally inexpensive structure and low effort required for parameterization. The proposed model is based on first principles. Unknown or uncertain parameters are estimated by solving tailored optimization problems. The model is then validated by measurements from an industrial plant. This validation confirms the model’s high accuracy and the small computational effort.

KW - Hot strip rolling

KW - Dynamical model

KW - Lateral motion

KW - Model validation

KW - Parameter estimation

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U2 - 10.1016/j.jmapro.2025.06.018

DO - 10.1016/j.jmapro.2025.06.018

M3 - Article

SN - 1526-6125

VL - 151

SP - 372

EP - 386

JO - Journal of Manufacturing Processes

JF - Journal of Manufacturing Processes

ER -

Dynamical model of the lateral strip motion in a tandem hot rolling mill

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