Piezoelectric Material

The node defines the piezoelectric material properties either in stress-charge form using the elasticity matrix and the coupling matrix, or in strain-charge form using the compliance matrix and the coupling matrix. It is normally used together with a Piezoelectric Effect, Time Explicit multiphysics coupling node and a corresponding node in the interface. This node is added by default to the interface when adding a multiphysics interface.

This material model requires the Structural Mechanics Module, MEMS Module, or Acoustics Module.


	When the Piezoelectric Material node is added to the Elastic Waves, Time Explicit interface in the absence of an active Piezoelectric Effect, Time Explicit multiphysics coupling node, the material behaves similarly to an Elastic Waves, Time Explicit Model node. The elastic properties correspond to the elasticity or compliance matrix entered (see below). The piezoelectric effect is then not included in the equation system.

Coordinate System Selection

Select the that defines the polarization orientation of the piezoelectric crystal. The default is the . The polarization is defined in the local x-axis direction in 2D, while it uses the local z-axis in 2D axisymmetry and 3D.


	For entering the material properties matrices (see below), use the following order (Voigt notation), which is the common convention for piezoelectric materials: xx, yy, zz, yz, xz, zy.