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J. Scheidl, Y. Vetyukov, C. Schmidrathner, K Schulmeister, M. Proschek:
"Mixed Eulerian-Lagrangian shell model for lateral run-off in a steel belt drive and its experimental validation";
International Journal of Mechanical Sciences, 204 (2021), 1 - 18.

A non-material shell finite element model is developed and applied to the example problem of a slack steel belt moving on two rotating drums. For the first time in the open literature we demonstrate an approach for predicting the time evolution of the lateral run-off velocity of the belt in response to its geometric imperfection and angular drum misalignment. We adopt a novel Eulerian-Lagrangian kinematic description featuring a mixed parametrisation of the configurational space with a Eulerian circumferential coordinate and two Lagrangian coordinates for the transverse and lateral deflections. A nonlinear finite element approximation provides the necessary inter-element continuity in this compound coordinate system. Using the model of elastic tangential contact, we account for the convective term in the local increments of the relative displacement between the contacting surfaces during the time integration. A thorough convergence study with respect to the mesh and time step sizes justifies the approach. Together with the successful validation against the results of a series of physical experiments, this makes the present contribution an important step towards a model-based controller design.

Mixed Eulerian-Lagrangian description; Kirchhoff shell; Finite element analysis; Belt drive mechanics; Elastic contact; Transient analysis

http://dx.doi.org/10.1016/j.ijmecsci.2021.106572

https://doi.org/10.1016/j.ijmecsci.2021.106572

Project Head Yury Vetyukov:
LaLaBand