Sorry, you need to enable JavaScript to visit this website.
Share

Publications

2021

  • Model Order Reduction based on Direct Normal Form: Application to Large Finite Element MEMS Structures Featuring Internal Resonance
    • Opreni Andrea
    • Vizzaccaro Alessandra
    • Frangi Attilio
    • Touzé Cyril
    Nonlinear Dynamics, Springer Verlag, 2021. Dimensionality reduction in mechanical vibratory systems poses challenges for distributed structures including geometric nonlinearities, mainly because of the lack of invariance of the linear subspaces. A reduction method based on direct normal form computation for large finite element (FE) models is here detailed. The main advantage resides in operating directly from the physical space, hence avoiding the computation of the complete eigenfunctions spectrum. Explicit solutions are given, thus enabling a fully non-intrusive version of the reduction method. The reduced dynamics is obtained from the normal form of the geometrically nonlinear mechanical problem, free of non-resonant monomials, and truncated to the selected master coordinates, thus making a direct link with the parametrisation of invariant manifolds. The method is fully expressed with a complex-valued formalism by detailing the homological equations in a systematic manner, and the link with real-valued expressions is established. A special emphasis is put on the treatment of second-order internal resonances and the specific case of a 1:2 resonance is made explicit. Finally, applications to large-scale models of Micro-Electro-Mechanical structures featuring 1:2 and 1:3 resonances are reported, along with considerations on computational efficiency. (10.1007/s11071-021-06641-7)
    DOI : 10.1007/s11071-021-06641-7
  • A stable, unified model for resonant Faraday cages
    • Delourme Bérangère
    • Lunéville Éric
    • Marigo Jean-Jacques
    • Maurel Agnès
    • Mercier Jean-François
    • Pham Kim
    Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, Royal Society, 2021, 477 (2245), pp.20200668. We study some effective transmission conditions able to reproduce the effect of a periodic array of Dirichlet wires on wave propagation, in particular when the array delimits an acoustic Faraday cage able to resonate. In the study of Hewett & Hewitt (2016 Proc. R. Soc. A 472 , 20160062 ( doi:10.1098/rspa.2016.0062 )) different transmission conditions emerge from the asymptotic analysis whose validity depends on the frequency, specifically the distance to a resonance frequency of the cage. In practice, dealing with such conditions is difficult, especially if the problem is set in the time domain. In the present study, we demonstrate the validity of a simpler unified model derived in Marigo & Maurel (2016 Proc. R. Soc. A 472 , 20160068 ( doi:10.1098/rspa.2016.0068 )), where unified means valid whatever the distance to the resonance frequencies. The effectiveness of the model is discussed in the harmonic regime owing to explicit solutions. It is also exemplified in the time domain, where a formulation guaranteeing the stability of the numerical scheme has been implemented. (10.1098/rspa.2020.0668)
    DOI : 10.1098/rspa.2020.0668
  • Invariant integrals and asymptotic fields near the front of a curved planar crack
    • Stolz Claude
    International Journal of Fracture, Springer Verlag, 2021. A plane crack is considered and the influence of local curvature of the crack front on the local mechanical fields is studied. The main goal is to determine the stress intensity factors along a curved planar crack in linear elasticity with accuracy. This is obtained by determination of new test fields and the use of bilinear forms, issued from invariant integrals, which separate the local modes of fracture. (10.1007/s10704-021-00552-9)
    DOI : 10.1007/s10704-021-00552-9