Walid Larbi


Portrait de Walid Larbi
Permanents
Professeur
01.40.27.27.93

Publications

Revues internationales ACL

    2020

  • R. Aloui, W. Larbi, M. Chouchane, Uncertainty quantification and global sensitivity analysis of piezoelectric energy harvesting using macro fiber composites, Smart Materials and Structures, in press, 2020. doi

  • W. Larbi, Numerical modeling of sound and vibration reduction using viscoelastic materials and shunted piezoelectric patches, Computers & Structures, 232, 105822 (10 pages), 2020. doi

  • 2019

  • R. Aloui, W. Larbi, M. Chouchane, Global sensitivity analysis of piezoelectric energy harvesters, Composite Structures, 228, 111317, 9 pages, 2019. doi

  • W. Larbi, J.-F. Deü, Reduced order finite element formulations for vibration reduction using piezoelectric shunt damping, Applied Acoustics, 147, 111-120, 2019. doi

  • 2017

  • W. Larbi, L. Pereira da Silva, J.-F. Deü, An efficient FE approach for attenuation of acoustic radiation of thin structures by using passive shunted piezoelectric systems, Applied Acoustics, 128, 3-13, 2017. doi

  • 2016

  • W. Larbi, J.-F. Deü, R. Ohayon, Finite element reduced order model for noise and vibration reduction of double sandwich panels using shunted piezoelectric patches, Applied Acoustics, 108, 40-49, 2016. doi

  • W. Larbi, J.-F. Deü, R. Ohayon, Vibroacoustic analysis of double-wall sandwich panels with viscoelastic core, Computers & Structures, 174, 92-103, 2016. doi

  • 2015

  • L. Pereira da Silva, W. Larbi, J.-F. Deü, Topology optimization of shunted piezoelectric elements for structural vibration reduction, Journal of Intelligent Material Systems and Structures, 26 (10), 1219-1235, 2015. doi

  • 2014

  • J.-F. Deü, W. Larbi, R. Ohayon, R. Sampaio, Piezoelectric shunt vibration damping of structural-acoustic systems: Finite element formulation and reduced-order model, Journal of Vibration and Acoustics, 136 (3), 031007, 2014. doi

  • W. Larbi, J.-F. Deü, R. Ohayon, R. Sampaio, Coupled FEM/BEM for control of noise radiation and sound transmission using piezoelectric shunt damping, Applied Acoustics, 86, 146-153, 2014. doi




Laboratoire de Mécanique des Structures et des Systèmes Couplés - LMSSC