Abstract
In this chapter, non-polarized ferroelectric ceramic beams with varying degrees of the roughness of opposite surfaces were investigated. It was found that under the influence of harmonic three-point mechanical loading at the resonance frequency, created by proof mass of 3.1 g in the middle of the beam, all samples without exception generated a voltage between 0.2 and 0.55 V at the electric load resistance of 360 kΩ. The maximum voltage was achieved in the samples when the rougher side (proof mass located at “upper surface” and rough side—at “lower surface”) was subjected to tensile stress. In addition, mathematical modeling was conducted for similar problem within the theory of flexoelectricity for beams . The possibility of occurrence of electric potential in the non-polarized piezoceramic samples was shown. Nevertheless, the values of electric potential were much lower than the experimental.
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References
A. Erturk, D.J. Inman, Piezoelectric Energy Harvesting (John Wiley & Sons, New York, 2011)
Y.C. Shu, I.C. Lien, J. Micromech. Microeng. 16(11), 2429 (2006)
S. Priya,·D.J. Inman, in Energy Harvesting Technologies (Springer, New York, 2009)
V.A. Chebanenko, V.A. Akopyan, I.A. Parinov, in Piezoelectrics and Nanomaterials: Fundamentals, Developments and Applications. ed. by I.A. Parinov (Nova Science Publishers, New York, 2015), p. 243
V.A. Akopyan, I.A. Parinov, Y.N. Zakharov, V.A. Chebanenko, E.V. Rozhkov, in Advanced Materials—Studies and Applications. eds. I.A. Parinov, S.-H. Chang, S. Theerakulpisut (Nova Science Publishers, New York 2015), p. 417
V.S. Mashkevich, K.B. Tolpygo, Sov. Phys. JETP 4, 455 (1957)
K.B. Tolpygo, Solid State Phys. 4, 1765 (1962)
S.M. Kogan, Solid State Phys. 5(10), 2829 (1963)
V.L. Indenbom, E.B. Loginov, M.A. Osipov, Kristallografiya. 26(6), 1157 (1981)
I.S. Zeludev, Czech J. Phys. 16(5), 368 (1966)
A. Abdollahi, C. Peco, D. Millán, M. Arroyo, I. Arias, J. Appl. Phys. 116(9), 093502 (2014)
S. Hu, S. Shen, Sci. China Phys. Mech. Astron. 53(8), 1497 (2010)
M.S. Majdoub, P. Sharma, T. Cagin, Phys. Rev. B. 77, 125424 (2008)
R. Maranganti, N.D. Sharma, P. Sharma, Physical Review B 74(1), 014110 (2006)
R.D. Mindlin, in Problems of Continuum Mechanics (1961), p. 282
E. Sahin, S. Dost, Int. J. Eng. Sci. 26(12), 1231 (1988)
Q. Deng, M. Kammoun, A. Erturk, P. Sharma, Int. J. Solids Struct. 51(18), 3218 (2014)
W. Ma, L.E. Cross, Appl. Phys. Lett. 82(19), 3293 (2003)
A.V. Belokon, A.S. Skaliuh, in Mathematical Modeling of Irreversible Processes of Polarization (2010) (in Russian)
X. Liang, S. Hu, S. Shen, J. Appl. Mech. 80(4), 044502 (2013)
Acknowledgements
The work was supported by the Ministry of Education of the Russian Federation (as part of the base part of the state task Project 1880) and the Russian Foundation for Basic Research (grants Nos. 16-08-00740_a, 15-08-00849_a). I.A. Parinov acknowledges financial support from Ministry of Education and Sciences of Russia in the framework of “Organization of Scientific Research” Government Assignment (grant No. 654).
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Soloviev, A.N., Chebanenko, V.A., Zakharov, Y.N., Rozhkov, E.V., Parinov, I.A., Gupta, V.K. (2017). Study of the Output Characteristics of Ferroelectric Ceramic Beam Made from Non-polarized Ceramics PZT-19: Experiment and Modeling. In: Parinov, I., Chang, SH., Jani, M. (eds) Advanced Materials. Springer Proceedings in Physics, vol 193. Springer, Cham. https://doi.org/10.1007/978-3-319-56062-5_41
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