Josef Synka, Alexander Kainz, Andreas Obereder, Robert Maringer,
"Numerical analysis of a new Eulerian-Lagrangian finite element method applied to steady-state hot rolling processes"
, in International Journal for Numerical Methods in Engineering, Vol. 62 (5), John Wiley & Sons, Ltd., Seite(n) 616-638, 2-2005, ISSN: 1097-0207
Numerical analysis of a new Eulerian-Lagrangian finite element method applied to steady-state hot rolling processes
Sprache des Titels:
A finite element code for steady-state hot rolling processes of rigid-visco-plastic materials under plane-strain conditions was developed in a mixed Eulerian-Lagrangian framework. This special set up allows for a direct calculation of the local deformations occurring at the free surfaces outside the contact region between the strip and the work roll. It further simplifies the implementation of displacement boundary conditions, such as the impenetrability condition. When applied to different practical hot rolling situations, ranging from thick slab to ultra-thin strip rolling, the velocity-displacement based model (briefly denoted as vu-model) in this mixed Eulerian-Lagrangian reference system proves to be a robust and efficient method.
The vu-model is validated against a solely velocity-based model (vv-model) and against elementary methods based on the Kármán-Siebel and Orowan differential equations. The latter methods, when calibrated, are known to be in line with experimental results for homogeneous deformation cases. For a massive deformation it is further validated against the commercial finite-element software package Abaqus/Explicit. It is shown that the results obtained with the vu-model are in excellent agreement with the predictions of the vv-model and that the vu-model is even more robust than its vv-counterpart. Throughout the study we assumed a rigid cylindrical work roll; only for the homogeneous test case, we also investigated the effect of an elastically deformable work roll within the frame of the Jortner Green's function method.
The new modelling approach combines the advantages of conventional Eulerian and Lagrangian modelling concepts and can be extended to three dimensions in a straightforward manner.
Sprache der Kurzfassung:
International Journal for Numerical Methods in Engineering
John Wiley & Sons, Ltd.
Anzahl der Seiten:
Aufsatz / Paper in sonstiger referierter Zeitschrift