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Article Dans Une Revue Structural and Multidisciplinary Optimization Année : 2023

Damping optimization of viscoelastic thin structures, application and analysis

Résumé

In this work damping properties of bending viscoelastic thin structures are enhanced by topology optimization. Homogeneous linear viscoelastic plates are optimized and compared when modeled by either the Kirchhoff-Love or Reissner-Mindlin plate theories as well as by the bulk 3D viscoelastic constitutive equations. Mechanical equations are numerically solved by the finite element method and designs are represented by the level-set approach. High performance computing techniques allow to solve the transient viscoelastic problem for very thin 3D meshes, enabling a wider range of applications. The considered isotropic material is characterized by a generalized Maxwell model accounting for the viscoelasticity of both Young modulus and Poisson's ratio. Numerical results show considerable design differences according to the chosen mechanical model, and highlights a counterintuitive section shrinking phenomenon discussed at length. The final numerical example extends the problem to an actual shoe sole application, performing its damping optimization in an industrial context.
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Dates et versions

hal-04086548 , version 1 (02-05-2023)

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Antoni Joubert, Grégoire Allaire, Samuel Amstutz, Julie Diani. Damping optimization of viscoelastic thin structures, application and analysis. Structural and Multidisciplinary Optimization, 2023, 66 (7), pp.149. ⟨10.1007/s00158-023-03602-z⟩. ⟨hal-04086548⟩
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