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An Investigation into Resonant Frequency of Triangular V-Shaped Cantilever Piezoelectric Vibration Energy Harvester | ||
| Journal of Solid Mechanics | ||
| مقاله 7، دوره 8، شماره 3، آذر 2016، صفحه 560-567 اصل مقاله (726 K) | ||
| نوع مقاله: Research Paper | ||
| نویسندگان | ||
| R Hosseini1؛ M Hamedi* 2 | ||
| 1Young Researchers and Elite Club, South Tehran Branch, Islamic Azad University, Tehran | ||
| 2School of Mechanical Engineering, University of Tehran, Tehran | ||
| چکیده | ||
| Power supply is a bottle-neck problem of wireless micro-sensors, especially where the replacement of batteries is impossible or inconvenient. Now piezoelectric material is being used to harvest vibration energy for self-powered sensors. However, the geometry of a piezoelectric cantilever beam will greatly affect its vibration energy harvesting ability. This paper deduces a remarkably precise analytical formula for calculating the fundamental resonant frequency of V-shaped cantilevers using Rayleigh-Ritz method. This analytical formula, which is very convenient for mechanical energy harvester design based on Piezoelectric effect, is then validated by ABAQUS simulation. This formula raises a new perspective that, among all the V-shaped cantilevers and in comparison with rectangular one, the simplest tapered cantilever can lead to maximum resonant frequency and highest sensitivity. | ||
| کلیدواژهها | ||
| Mechanical energy harvester؛ Piezoelectric؛ V-shaped cantilever؛ Resonant frequency؛ Finite Element | ||
| مراجع | ||
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[1] Anderson T. A., Sexton D. W., 2006, A vibration energy harvesting sensor platform for increased industrial efficiency, Smart Structures and Materials 6174: 1-9. [2] Beeby S. P., Tudor M. J., White N., 2006, Energy harvesting vibration sources for microsystems applications, Measurement Science and Technology 17: 175-195. [3] Erturk A., Inman D. J., 2011, Piezoelectric Energy Harvesting, John Wiley & Sons. [4] Priya S., Inman D. J., 2009, Energy Harvesting Technologies , Springer. [5] Muthalif A.G., Nordin N. D., 2015, Optimal piezoelectric beam shape for single and broadband vibration energy harvesting: Modeling, simulation and experimental results, Mechanical Systems and Signal Processing 54: 417-426. [6] Tang L., Yang Y., Soh C. K., 2010, Toward broadband vibration-based energy harvesting, Journal of Intelligent Material Systems and Structures 21: 1867-1897. [7] Shahruz S., 2006, Limits of performance of mechanical band-pass filters used in energy scavenging, Journal of Sound and Vibration 293: 449-461. [8] Yang Z., Yang J., 2009, Connected vibrating piezoelectric bimorph beams as a wide-band piezoelectric power harvester, Journal of Intelligent Material Systems and Structures 20: 569-574. [9] Hosseini R., Hamedi M., 2015, Improvements in energy harvesting capabilities by using different shapes of piezoelectric bimorphs, Journal of Micromechanics and Microengineering 25:125008-125022. [10] Hosseini R., Hamedi M., 2016, An investigation into resonant frequency of trapezoidal V-shaped cantilever piezoelectric energy harvester, Microsystem Technologies 22:1127-1134. [11] Hosseini R., Hamedi M., 2016, Study of the Resonant Frequency of Unimorph Triangular V-shaped Piezoelectric Cantilever Energy Harvester, International Journal of Advanced Design and Manufacturing Technology 8(4):75-82. [12] Yang K., Li Z., Jing Y., Chen D., Ye T., 2009, Research on the resonant frequency formula of V-shaped cantilevers, 4th IEEE International Conference on Nano/Micro Engineered and Molecular Systems. [13] Senturia S. D., 2001, Microsystem Design , Kluwer Academic Publishers Boston. [14] Rao S. S., 2007, Vibration of Continuous Systems, John Wiley & Sons. | ||
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