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Numerical Simulation of Continuous Tension Leveling Process of Thin Strip Steel and Its Application

Authors
  • Li, Sheng-zhi1
  • Yin, Yuan-de1
  • Xu, Jie1
  • Hou, Jun-ming1
  • Yoon, Jaehong2
  • 1 Anhui University of Technology, School of Materials Science and Engineering, Ma’anshan, Anhui, 243002, China , Ma’anshan, Anhui (China)
  • 2 Changwon National University, School of Nano and Advanced Materials Engineering, Changwon, 641-773, Korea , Changwon (South Korea)
Type
Published Article
Journal
Journal of Iron and Steel Research International
Publisher
Springer Singapore
Publication Date
Sep 01, 2007
Volume
14
Issue
6
Pages
8–13
Identifiers
DOI: 10.1016/S1006-706X(07)60082-X
Source
Springer Nature
Keywords
License
Yellow

Abstract

Cold-rolled thin strip steel of high flatness quality undergoes multistage deformation during tension leveling. Thus, the parameters of set-up and manipulating are more difficult. With the aid of FE code MSC. MARC, the tension leveling process of thin strip steel was numerically simulated. Concentrating on the influence of the roll intermeshes in 2# anti-cambering on the distribution and magnitude of residual stresses in leveled strip steel, several experiments were done with the tension leveler based on the results from the simulation. It was found from the simulation that the magnitude of longitudinal residual stresses in the cross-section of the leveled strip steel regularly presents obvious interdependence with the roll intermeshes in 2# anti-cambering. In addition, there is a steady zone as the longitudinal residual stresses of the surface layers in leveled strip steel vary with the roll intermeshes of 2# anticambering, which is of importance in the manipulation of tension levelers. It was also found that the distribution of strains and stresses across the width of strip steel is uneven during leveling or after removing the tension loaded upon the strip, from which it was found that 3D simulation could not be replaced by 2D analysis because 2D analysis in this case cannot represent the physical behavior of strip steel deformation during tension leveling.

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