Título

MODELLING ROLL STACK DEFORMATION FOR FLAT ROLLING MILLS VIA FINITE ELEMENT METHOD: A CRITICAL REVIEW OF SOME SIMPLIFYING ASSUMPTIONS

DOI

10.5151/9785-9785-32233

Downloads

Baixar Artigo 178 Downloads

Resumo

 

A precise roll stack deformation model of a flat rolling mill is crucial for strip profile assessment as it depends strongly on the roll’s deformation. The need for more and more advanced products with stringent both geometrical and mechanical tolerances (e.g., Advanced High Strength Steels – AHSS), with thinner and harder steel strips, demands more advanced simulation models. The present paper addresses assumptions made in Finite Element Method (FEM)-based roll stack models on some important, yet barely discussed features: What is the impact on precision of the simplifications such as symmetry and anti-symmetry? Should roll neck boundary conditions in bearings be considered as fixed or simply supported? In this paper a hybrid model developed by the authors for a general flat rolling mill is used to assess those questions. This model runs much faster (100x in some cases) than a whole-FEM-modeled 6-high rolling mill with the elastoplastic strip deformation, thanks to its simplifications adopted. This model assumes a steady state rolling condition, and the roll stack is modeled with tridimensional finite elements, and the loads are calculated via a slab method adopting a plane strain state for the strip deformation (especially true for thin strips). An industrial 6-high cold rolling mill is modeled and results on the application of symmetries and different boundary conditions on the roll’s necks are presented. It is concluded that the application of symmetries and anti-symmetries for the 6-high rolling mill is possible for thin strips. And the way the necks are modeled does not impact on the final strip shape, though it influences the magnitude of the roll’s displacement. The coupling of the strip with the work roll applied assuming a symmetry plane of the arc of contact has little influence on the strip shape.

Palavras-chave

flat rolling; roll stack deformation; strip profile; finite element method

Como citar

Shigaki, Yukio; Montmitonnet, Pierre; Silva, Jonatas Mezêncio. MODELLING ROLL STACK DEFORMATION FOR FLAT ROLLING MILLS VIA FINITE ELEMENT METHOD: A CRITICAL REVIEW OF SOME SIMPLIFYING ASSUMPTIONS , p. 192-198. In: 11th International Rolling Conference (IRC 2019), São Paulo, 2019.
ISSN: - , DOI 10.5151/9785-9785-32233