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The Multicomponent PZT-Type Ceramics for Micromechatronic Applications

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Języki publikacji
EN
Abstrakty
EN
In the paper two compositions of the multi-component PZT-type ceramics admixtures by Mn4+, Sb3+, W6+, Ni6+ were presented. The ceramic powders were synthesized by the calcination of powders while their densification was carried out by free sintering method. The dielectric, ferroelectric, piezoelectric studies and DC electrical conductivity of the multicomponent PZT-type samples were presented. The results of the multi-component ceramics predispose these type materials in micromechatronic and microelectronic applications for example as element of the actuators.
Twórcy
autor
  • University of Silesia, Institute of Technology and Mechatronics, 12 Żytnia Str., 41-200 Sosnowiec, Poland
autor
  • University of Silesia, Institute of Technology and Mechatronics, 12 Żytnia Str., 41-200 Sosnowiec, Poland
autor
  • University of Silesia, Institute of Technology and Mechatronics, 12 Żytnia Str., 41-200 Sosnowiec, Poland
autor
  • University of Silesia, Institute of Technology and Mechatronics, 12 Żytnia Str., 41-200 Sosnowiec, Poland
  • University of Silesia, Institute of Technology and Mechatronics, 12 Żytnia Str., 41-200 Sosnowiec, Poland
  • University of Silesia, Institute of Technology and Mechatronics, 12 Żytnia Str., 41-200 Sosnowiec, Poland
autor
  • University of Silesia, Institute of Technology and Mechatronics, 12 Żytnia Str., 41-200 Sosnowiec, Poland
Bibliografia
  • [1] K. Uchino, J.R. Giniewicz, Micromechatronics, New York, Marcel Dekker, 2003.
  • [2] A. J. Moulson, J.M. Herbert, Electroceramics, Materials, Properties, Applications, second ed., Wiley, Chichester, West Sussex, 2003.
  • [3] D. Bochenek, Z. Surowiak, Applications of iron (III) nitrate to obtain the multiferroic Pb(Fe1/2Nb1/2)O3 ceramics by the sol-gel method; Journal of Alloys and Compounds 480, 732-736 (2009).
  • [4] H. S. Tzou, H.J. Lee, S.M. Arnold, Smart materials, precision sensors/Actuators, Smart Structures, and Structronic Systems, Mechanics of Advanced Materials and Structures 11, 367-393 (2014).
  • [5] M. R. Soares, A.M.R. Senos, P.Q. Mantas, Phase coexistence region and dielectric properties of PZT ceramics, Journal of the European Ceramic Society 20, 321-334 (2000).
  • [6] Y. Xu, Ferroelectric Materials and Their Applications, North--Holland, Amsterdam, 1991.
  • [7] P. K. Panda, B. Sahoo, S. Raja, M.P. Vijaya Kumar, V. Shankar, Electromechanical and dynamic characterization of in-house--fabricated amplified piezo actuator, Smart Materials Research 2012, 203625 (2012)
  • [8] W. Hong-Wei, Performance Simulation and Fabrication of PZT Piezoelectric Composite Ring, International Journal of Materials Science and Applications 5, 2, 89-94 (2016).
  • [9] P. K. Panda, B. Sahoo, PZT to Lead Free Piezo Ceramics: A Review, Ferroelectrics 474, 128-143 (2015).
  • [10] D. Bochenek, R. Zachariasz, P. Niemiec, J. Ilczuk, J. Bartkowska, D. Brzezińska, Ferroelectromagnetic solid solutions on the base piezoelectric ceramic materials for components of micromechatronics, Mechanical Systems and Signal Processing 78, 1 84-90 (2016).
  • [11] X. Li, J.S. Vartuli, D.L. Milius, I. A. Aksay, W.Y. Shih, W.H. Shih, Electromechanical Properties of a Ceramic d31-Gradient Flextensional Actuator, J. Am. Ceram. Soc. 84, 5, 996-1003 (2001).
  • [12] N. Texier, C. Courtois, M. Traianidis, A. Leriche, Power proces influence on the characteristics of Mn, W, Sb, Ni-doped PZT, Journal of The European Ceramic Society 21, 1499-1502 (2001).
  • [13] D. Bochenek, P. Kruk, R. Skulski, P. Wawrzała, Multiferroic ceramics Pb(Fe1/2Nb1/2)O3 doped by Li, Journal of Electroceramics 26, 8-13,(2011).
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e4f00d87-89da-40a8-8761-da05de44d9f0
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