• DocumentCode
    3802487
  • Title

    Compound piezoelectric cylindrical resonators as sensors of the rheological parameters of viscoelastic media

  • Author

    Piotr Kielczynski;Marek Szalewski

  • Author_Institution
    Inst. of Fundamental Technol. Res., Polish Acad. of Sci., Warsaw
  • Volume
    54
  • Issue
    6
  • fYear
    2007
  • Abstract
    The electro-elastic behavior of a viscoelastically loaded layered cylindrical resonator (sensor) comprising two coupled hollow cylinders is presented. The inner cylinder is a piezoelectric ceramic tube. The outer cylinder is a non-piezoelectric (passive) metallic cylinder. An analytical formula for the electrical admittance of a compound layered cylindrical resonator loaded with a viscoelastic liquid is established. Admittance (conductance) diagrams were obtained using a continuum electromechanical model. The established analytical formulas enable the determination of the influence of the liquid viscosity, material, and geometrical parameters of a compound cylindrical resonator on the response characteristics of the compound sensor. In the paper, the sensor implications resulting from the performed analysis are described. Moreover, the algorithm of the method developed by the authors to evaluate the rheological parameters of a viscoelastic liquid is presented. Good agreement between the theoretical results and experimental data is shown. The analysis presented in this paper can be utilized for the design and construction of cylindrical piezoelectric viscosity sensors, annular accelerometers, filters, transducers, and multilayer resonators.
  • Keywords
    "Rheology","Viscosity","Elasticity","Admittance","Electromechanical sensors","Sensor phenomena and characterization","Ceramics","Conducting materials","Performance analysis","Accelerometers"
  • Journal_Title
    IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control
  • Publisher
    ieee
  • ISSN
    0885-3010
  • Type

    jour

  • DOI
    10.1109/TUFFC.2007.373
  • Filename
    4258835