Add to ORKGDue to their unique electromechanical coupling properties, soft electro-active (SEA) resonators are actively tunable, extremely suitable, and practically important for designing the next-generation acoustic and vibration treatment devices. In this paper, we investigate the electrostatically tunable axisymmetric vibrations of SEA tubes with different geometric sizes. We consider both axisymmetric torsional and longitudinal vibrations for an incompressible SEA cylindrical tube under inhomogeneous biasing fields induced by radial electric voltage and axial pre-stretch. We then employ the state-space method, which combines the state-space formalism in cylindrical coordinates with the approximate laminate technique, to derive the frequency equat...
This thesis is focused on theoretical and experimental studies regarding semi-active control of the ...
Soft materials can be designed with a functionally graded (FG) property for specific applications. S...
Soft electro-active tubes are promising electromechanical transducers. Practical applications of suc...
Due to their unique electromechanical coupling properties, soft electro-active (SEA) resonators are ...
Soft electro-active (SEA) materials can be designed and manufactured with gradients in their materia...
This paper studies the axisymmetric wave propagation in a soft electroactive cylindrical shell (or h...
Wave propagation in hollow dielectric elastomer cylinders is studied. The quasi-static deformation o...
Soft electroactive (EA) tube actuators and many other cylindrical devices have been proposed recentl...
Based on Dorfmann and Ogden's nonlinear theory of electroelasticity and the associated linear increm...
In two recent papers, conditions for which axisymmetric incremental bifurcation could arise for a ci...
This work deals with the amplitude–frequency response of coaxial parametric resonance of electrostat...
Achieving the desired resonant frequency of resonators has been an important issue, since it determi...
Soft electroactive materials show great potential for device and robot applications. However, these ...
This thesis is focused on theoretical and experimental studies regarding semi-active control of the ...
Soft materials can be designed with a functionally graded (FG) property for specific applications. S...
Soft electro-active tubes are promising electromechanical transducers. Practical applications of suc...
Due to their unique electromechanical coupling properties, soft electro-active (SEA) resonators are ...
Soft electro-active (SEA) materials can be designed and manufactured with gradients in their materia...
This paper studies the axisymmetric wave propagation in a soft electroactive cylindrical shell (or h...
Wave propagation in hollow dielectric elastomer cylinders is studied. The quasi-static deformation o...
Soft electroactive (EA) tube actuators and many other cylindrical devices have been proposed recentl...
Based on Dorfmann and Ogden's nonlinear theory of electroelasticity and the associated linear increm...
In two recent papers, conditions for which axisymmetric incremental bifurcation could arise for a ci...
This work deals with the amplitude–frequency response of coaxial parametric resonance of electrostat...
Achieving the desired resonant frequency of resonators has been an important issue, since it determi...
Soft electroactive materials show great potential for device and robot applications. However, these ...
This thesis is focused on theoretical and experimental studies regarding semi-active control of the ...
Soft materials can be designed with a functionally graded (FG) property for specific applications. S...
Soft electro-active tubes are promising electromechanical transducers. Practical applications of suc...