• DocumentCode
    3791702
  • Title

    Modeling of ultrasonic wave propagation in integrated piezoelectric structures under residual stress

  • Author

    M. Lematre;G. Feuillard;T. Delaunay;M. Lethiecq

  • Author_Institution
    CNRS, France
  • Volume
    53
  • Issue
    4
  • fYear
    2006
  • Firstpage
    685
  • Lastpage
    696
  • Abstract
    The objective of this study is to understand the role of residual stress in piezoelectric layers in order to predict the performance of integrated structures. This is of particular importance in thick or thin film technology. Considering a bulk piezoelectric material, the Christoffel equation for a piezoelectric material is modified to take into account a uniform residual stress on a given cross section. A numerical study of its influence is carried out on the slowness curves and coupling coefficients of a lithium niobate material. In a second part, modified Christoffel tensor is used to calculate the dispersion curves of Lamb waves in a piezoelectric plate. The Lamb modes are found to be sensitive to the residual stress. In particular, it is shown how the behavior of the first Lamb modes is modified with residual stress. In a third part, these results are extended to a piezoelectric film laid down on a substrate in order to model the importance of these phenomena on the behavior of an integrated structure. The numerical study of guided waves in a lithium niobate plate is performed first, then the case of a lithium niobate film laid down on a silicon substrate is considered.
  • Keywords
    "Residual stresses","Piezoelectric films","Piezoelectric materials","Lithium niobate","Tensile stress","Temperature sensors","Ceramics","Substrates","Material properties","Acoustic waves"
  • Journal_Title
    IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control
  • Publisher
    ieee
  • ISSN
    0885-3010
  • Type

    jour

  • DOI
    10.1109/TUFFC.2006.1621495
  • Filename
    1621495