A comparison of computational models for wrinkling of pressurized shell-core systems

Autor: Tomo Veldin, Miha Brojan, Boštjan Brank, Marko Lavrenčič
Rok vydání: 2020
Předmět:
Zdroj: International Journal of Non-Linear Mechanics. 127:103611
ISSN: 0020-7462
DOI: 10.1016/j.ijnonlinmec.2020.103611
Popis: Four nonlinear computational models for the surface wrinkling of curved shell-core systems under external pressure are presented. Three of the considered finite element models neglect the displacements tangential to the shell surface. Two of the models are static formulations and the other two are derived in the dynamic framework. For the latter, the energy-decaying time-stepping algorithm is applied, which is suitable for numerically stiff problems, such as shell-core systems, characterized by stiff membrane and soft wrinkling deformation modes. In all cases the core is modeled by elastic springs. As a comparative problem we choose the surface wrinkling of pressurized shell-core spheres. In particular, five systems with different material and geometric properties are computed, which have different wrinkle patterns. A good agreement is found between the results of the models as well as with the relevant references, which provide numerical and experimental results. However, it has been observed that our reduced-order models are blind to the prediction of the secondary transformation – from the dimple-like pattern to the labyrinthine pattern. Another conclusion is that a non-tailored (i.e. standard) shell finite element on an elastic foundation combined with the energy-decaying scheme, provides excellent predictions of the surface wrinkle patterns.
Databáze: OpenAIRE
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