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Home / Examples / Piezoelectric Analysis [Rayleigh] / Example 13: Tensile Force and Resonant Frequency

Example 13: Tensile Force and Resonant Frequency

General

  • The model is a bar with two reversely polarized piezoelectric plates stuck together.
    It is subjected to the tensile force, and the resonant frequency changes.

  • [Analysis with the initial stress taken into account] is applied. See Analysis with initial stress taken into account for the details.
     

  • The device's displacement and the resonant frequencies are solved.
     

  • Unless specified in the list below, the default conditions will be applied.
     

  • Obtain this session's project file. (Right-click and choose 'Save link as')


  • Results will vary depending on Femtet version and the PC environment.

 

Analysis Space

Item

Settings

Analysis Space

3D

Model Unit

mm

 

Analysis Conditions

The analysis type is resonant analysis.

Item

Settings

Solver

Piezoelectric Analysis [Rayleigh]

Analysis Type

Resonant Analysis

Options

Analysis with initial stress taken into account

Select Take into account

Select Specify static load for boundary condition.
 

The resonant analysis tab is set up as follows.

Tab

Setting Item

Settings

Resonant analysis

Number of Modes

3

Approximated Frequency

0 [Hz]

Model

Two reversely polarized piezoelectric plates are stuck together. The end faces are set with the boundary condition of pressure.
The top and bottom faces are set with the boundary condition of specified electric potential.

Body Attributes and Materials

Body Number/Type

Body Attribute Name

Material Name

0/Solid

upper

000_P-4 *

1/Solid

lower

000_P-4 *

* Available from the material DB

Boundary Conditions

Boundary Condition Name/Topology

Tab

Boundary Condition Type

Settings

earth/Face

Electric

Electric Wall

Electric Potential Specified: Electric Potential 0 [V]

hot/Face

Electric

Electric Wall

Electric Potential Specified: Electric Potential 10 [V]

f_left/Face

Mechanical

Pressure

-1X109 [Pa]

f_right/Face

Mechanical

Pressure

-1X1099 [Pa]

Results

The displacement diagram of Mode[0] is shown below.

The fundamental resonant frequency is 4.481E+4 [Hz].

 

On the [Results] tab

 

 

 and click [Show Numerical Summary Table] .

 

The table below shows the resonant frequencies.

Other characteristics can be seen on other tabs.

 

 

The table below is the results with the tensile force set to 0.

 

 

The tensile force affects the resonance.