Modeling and modal analysis to oscillations of IPMC cantilever beam and simulating as an actuator
Subject Areas : Journal of Simulation and Analysis of Novel Technologies in Mechanical Engineeringآرش رجایی 1 , علی مختاریان 2 , مصطفی پیرمرادیان 3
1 - Islamic Azad University,
Khomeinishahr Branch
2 - Islamic Azad University,
Khomeinishahr Branch
3 - Islamic Azad University,
Khomeinishahr Branch
Keywords: Cantilever beam, Modal Analysis, actuator, IPMC, Transfer function, Dynamics analysis,
Abstract :
The purpose of this article is modal analysis of ionic polymer metal composite beams, then briefing the system to the unique parameters to help in up modeling of the actuator. In this paper at first using of Mathematical analysis and Closed form transfer function of cantilever beam dynamic response to the forces of different inputs (intensive and continuous) is calculated and for different types of systems resonance and anti-resonance points in frequency analysis are found, then with using modal analysis of system the entire response is briefed in the basic mode and parameters of un-damped natural frequency and damping coefficient in this mode is to introduced for the system, after the cantilever composite beam considered as an operator with the input voltage, displacement and produces a force on the free end, By observing the behavior of the system, analyzed responses to the inputs
[1] M. Aureli, C. Prince, M. Porfiri, And S. D. Peterson, “Energy Harvesting From Base Excitation Of Ionic Polymer Metal Composites In Fluid Environments,” Smart Mater. Struct., Vol. 19, No. 1, P. 15003, 2009.
[2] S. D. Peterson And M. Porfiri, “Energy Exchange Between A Vortex Ring And An Ionic Polymer Metal Composite,” Appl. Phys. Lett., Vol. 100, No. 11, P. 114102, 2012.
[3] C. Bonomo, L. Fortuna, P. Giannone, S. Graziani, And S. Strazzeri, “A Resonant Force Sensor Based On Ionic Polymer Metal Composites,” Smart Mater. Struct., Vol. 17, No. 1, P. 15014, 2007.
[4] B. Paola, L. Fortuna, P. Giannone, S. Graziani, And S. Strazzeri, “Ipmcs As Vibration Sensors,” In Instrumentation And Measurement Technology Conference Proceedings, 2008. Imtc 2008. Ieee, 2008, Pp. 2065–2069.
[5] U. Zangrilli And L. M. Weiland, “Prediction Of The Ionic Polymer Transducer Sensing Of Shear Loading,” Smart Mater. Struct., Vol. 20, No. 9, P. 94013, 2011.
[6] Y. Bahramzadeh And M. Shahinpoor, “Dynamic Curvature Sensing Employing Ionic-Polymer--Metal Composite Sensors,” Smart Mater. Struct., Vol. 20, No. 9, P. 94011, 2011.
[7] C. Lim, H. Lei, And X. Tan, “A Dynamic Physics-Based Model For Base-Excited Ipmc Sensors,” In Spie Smart Structures And Materials+ Nondestructive Evaluation And Health Monitoring, 2012, P. 83400h–83400h.
[8] Y. P. Park And C. D. Mote, “The Maximum Controlled Follower Force On A Free-Free Beam Carrying A Concentrated Mass,” J. Sound Vib., Vol. 98, No. 2, Pp. 247–256, 1985.
[9] Y. P. Park, “Dynamic Stability Of A Free Timoshenko Beam Under A Controlled Follower Force,” J. Sound Vib., Vol. 113, No. 3, Pp. 407–415, 1987.
[10] Y. Sugiyama, T. Katayama, H. Fukuda, And C. Kar, “Effect Of Internal Damping On The Stability Of Free-Free Beams Under An End Thrust,” Trans. Japan Soc. Mech. Eng, Vol. 55, No. 88, Pp. 243–247, 1989.
[11] R. Kanno, S. Tadokoro, T. Takamori, M. Hattori, And K. Oguro, “Linear Approximate Dynamic Model Of Icpf (Ionic Conducting Polymer Gel Film) Actuator,” In Robotics And Automation, 1996. Proceedings., 1996 Ieee International Conference On, 1996, Vol. 1, Pp. 219–225.
[12] R. Kanno, S. Tadokoro, T. Takamori, And K. Oguro, “3-Dimensional Dynamic Model Of Ionic Conducting Polymer Gel Film (Icpf) Actuator,” In Systems, Man, And Cybernetics, 1996., Ieee International Conference On, 1996, Vol. 3, Pp. 2179–2184.
[13] M. Shahinpoor, “Nonhomogeneous Large-Deformation Theory Of Ionic Polymeric Gels In Electric And Ph Fields,” In 1993 North American Conference On Smart Structures And Materials, 1993, Pp. 40–55.
[14] R. Kanno, A. Kurata, M. Hattori, S. Tadokoro, T. Takamori, And K. Oguro, “Characteristics And Modeling Of Icpf Actuator,” In Proceedings Of The Japan-Usa Symposium On Flexible Automation, 1994, Vol. 2, Pp. 691–698.
[15] M. Mojarrad And M. Shahinpoor, “Ion-Exchange-Metal Composite Sensor Films,” In Smart Structures And Materials’ 97, 1997, Pp. 52–60.
[16] M. Shahinpoor, M. Mojarrad, And K. Salehpoor, “Electrically Induced Large-Amplitude Vibration And Resonance Characteristics On Ionic Polymeric Membrane-Metal Composites Artificial Muscles,” In Smart Structures And Materials’ 97, 1997, Pp. 829–838.
[17] M. Shahinpoor, Y. Bar-Cohen, J. O. Simpson, And J. Smith, “Ionic Polymer-Metal Composites (Ipmcs) As Biomimetic Sensors, Actuators And Artificial Muscles-A Review,” Smart Mater. Struct., Vol. 7, No. 6, P. R15, 1998.
[18] K. Mallavarapu And D. J. Leo, “Feedback Control Of The Bending Response Of Ionic Polymer Actuators,” J. Intell. Mater. Syst. Struct., Vol. 12, No. 3, Pp. 143–155, 2001.