BOUNDARY
CONDITIONS
Polarization/Local
Axes
Data -> Conditions -> Volumes -> Geometry -> Polarization
(Cartesian) -> Define Polarization (P1) (0,0,-1) direction
Choose 3PointsXZ -> Center (0,0,0) -> Define X axis
by putting (1,0,0) -> Then define Z axis by putting (0,0,-1)
-> Escape
Assign Polarization (Local-Axes P1) -> Choose the PZT all
three volumes -> Finish
Potential
Data -> Conditions -> Surfaces -> Electric Potential
-> Ground -> Assign
the bottom two surfaces of the PZT
Data -> Conditions -> Forced Potential 1.0
with phase 0 -> Assign
the top right-side surface
Data -> Conditions -> Forced Potential 1.0 with phase
90 -> Assign the top lest-side surface
This is the way how to apply sine &
cosine on the PZT plates.
Surface
Contraints (Two "Leg" ends are clampled)
Data -> Conditions -> Surfaces -> Surface
Constraints -> X, Y and Z components -> Clamped
-> Assign the PZT Leg End surfaces
To check the assignment -> Draw
-> All conditions -> Include local axes
MESHING 
Cant view is not very suitable
to Meshing -> View -> Rotate -> Plane xy
(original)
Mapped Mesh
Meshing -> Structured -> Volumes -> Select
all volumes -> Then Cancel the further process
Meshing -> Structured -> Lines -> Enter number to divide
line -> Choose "1,
2 and 4" for
the lines -> Generate