Investigation of the influence of the chemical composition of HSLA steel grades on the microstructure homogeneity during hot rolling in continuous rolling mills using a fast layer model

Research output: Contribution to journalArticleResearchpeer-review

Authors

  • M. Schmidtchen
  • Axel Rimnac
  • Piotr Warczok
  • Ernst Kozeschnnik
  • S. Bragin
  • R. Kawalla
  • B. Linzer

Organisational units

External Organisational units

  • Institute of Mechanics and Fluid Dynamics, TU Bergakademie Freiberg
  • Institute of Materials Science and Technology
  • Primetals Technologies Austria GmbH

Abstract

The newly developed LaySiMS simulation tool provides new insight for inhomogeneous material flow and microstructure evolution in an endless strip production (ESP) plant. A deepened understanding of the influence of inhomogeneities in initial material state, temperature profile and material flow and their impact on the finished product can be reached e.g. by allowing for variable layer thickness distributions in the roll gap. Coupling temperature, deformation work and work hardening/recrystallization phenomena accounts for covering important effects in the roll gap. The underlying concept of the LaySiMS approach will be outlined and new insight gained regarding microstructural evolution, shear and inhomogeneous stress and strain states in the roll gap as well as local residual stresses will be presented. For the case of thin slab casting and direct rolling (TSDR) the interrelation of inhomogeneous initial state, micro structure evolution and dissolution state of micro alloying elements within the roughing section of an ESP line will be discussed. Special emphasis is put on the influence of the local chemical composition arising from direct charging on throughthickness homogeneity of the final product. It is concluded that, due to the specific combination of large reductions in the high reduction mills (HRM) and the highly inhomogeneous inverse temperature profile, the ESP-concept provides great opportunities for homogenizing the microstructure across the strip thickness.

Details

Original languageGerman
Pages (from-to)12001
Number of pages1
JournalIOP Conference Series: Materials Science and Engineering
Volume119
Issue number1
Publication statusPublished - 2016