Title of article
Stability analysis of a parametrically excited functionally graded piezoelectric, MEM system
Author/Authors
Azizi، نويسنده , , Saber and Ghazavi، نويسنده , , Mohammad-Reza and Esmaeilzadeh Khadem، نويسنده , , Siamak and Yang، نويسنده , , Jie and Rezazadeh، نويسنده , , Ghader، نويسنده ,
Issue Information
دوماهنامه با شماره پیاپی سال 2012
Pages
11
From page
456
To page
466
Abstract
In this paper the mechanical behavior of a parametrically actuated functionally graded piezoelectric (FGP) clamped–clamped micro-beam is investigated. The micro-beam is supposed to be a composite material with silicon and piezoelectric base. The mechanical properties of the structure, including elasticity modulus, density, and piezoelectricity coefficient are supposed to vary along the height of the micro-beam with an exponential functionality. It is supposed that the FGP clamped–clamped micro-beam is actuated with a combination of direct and alternative electric potential difference. Application of DC and AC actuation voltage leads in a constant and a time-varying axial force. The governing differential equation of the motion is derived using Hamiltonian principle and discretized using expansion theorem with the corresponding shape functions of a clamped–clamped beam. The discretized system is governed by Mathieu equation which’s stability is investigated using Floquet theory for single degree of freedom systems and verified using multiple time scales of perturbation technique.
Keywords
stability analysis , Mathieu equation , FGP clamped–clamped micro-beam , Parametric Excitation , MEMS , Perturbation technique
Journal title
Current Applied Physics
Serial Year
2012
Journal title
Current Applied Physics
Record number
1788991
Link To Document