Vibration control of magnetostrictive plate under multi- physical loads via trigonometric higher order shear deformation theory

چکیده مقاله

For the first time in this research, a feedback control system is used to study the free vibration response of rectangular plate made of magnetostrictive material (MsM). In this regard, magnetostrictive plate (MsP) is analyzed by trigonometric higher order shear deformation theory (SDT) that involved six unknown displacement functions and does not require shear correction factor. The MsP is supported by elastic medium as Pasternak foundation which considers both normal and shears modules. Also the MsP undergoes in-plane forces in x and y directions. Considering simply supported boundary condition, six equations of motion are derived using Hamilton’s principle and solved by differential quadrature method (DQM). Results indicate the effect of aspect ratio, thickness ratio, elastic medium, compression and tension loads on vibration behavior of MsP. Also, findings show the controller effect of velocity feedback gain to minimize the frequency as far as other parameters become ineffective. These findings can be used to active noise and vibration cancellation systems in many structures.