Piezotech processing's guides - Calculations

source：未知date：2019/04/13 19:11 browse：

Deformation under electrical field

The deformation caused by the applied electric field can be defined by the simple formula:

Where

● S i =Δx i /x i =ΔL/L and represents the strain (relative deformation) of the sample in the x i direction

● d 31 is the piezoelectric strain constant

Example of an element with the following characteristics:

Length: l=1cm

Width: w=2mm

Thickness: t=9µm

Applied voltage: V=200V -> E (electric field) = V/t

(d 31 , d 32 , d 33 ) = (11, 10, -30) pC/N

The piezo strain constant d is given by:

Sensors: Orders of Magnitude, Voltage generation

The electrical field output (E) caused by an applied force can be defined by:

Where:

● σ i is the applied mechanical stress (N/m²)

● g ij is the piezoelectric voltage constant (Vm/N)

Example of an element with the following characteristics:

Length: l=2cm

Width: w=2cm

Thickness: t=100µm

Compression 0.1 Bar (104 Pa) 4N -> σ=10000N/m²