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Study of the relaxor behaviour in Ba0.68Na0.32Ti0.68Nb0.32O3 ceramic

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Wybrane pełne teksty z tego czasopisma
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Języki publikacji
EN
Abstrakty
EN
Purpose: The purpose of this work was to synthesize a new ceramic solid solution Ba0.68Na0.32Ti0.68Nb0.32O3 (BNTN32), as well as to measure and analyse its dielectric properties within the temperature range 123 K-473 K, where dielectrically active phase transition was supposed to occur. Design/methodology/approach: The new ceramic composition was prepared by means of conventional method. Dependence of phase transition features on temperature and frequency of measuring field were measured using dielectric spectroscopy method within the frequency range from 20 Hz to 1 MHz. Findings: The electric susceptibility along with temperature decrease generally rises up and has transient dispersion vanishing at about 230 K. At higher and low temperatures, frequency dependence of dispersion differs in character: at temperatures at ~400 K, low frequency values dominate. Dielectric energy losses are very high at ~high temperature, they decline down while temperature decrease, and at about 200 K range its frequency dependence is reversed and less scattered with maximum at ~150 K. The whole transition of ferroelectric - paraelectric (FE - PE) type can be described by means of Curie-Weiss law and it gets diffused character. Research limitations/implications: For modelling purposes the structure parameters of BNTN32 have to be measured by X-ray diffraction in order to establish the dielectric/structural activities of transitions taking place within used the temperature range. Additionally, dielectric measurements within broader frequency range up to 1.8 GHz will be performed. Originality/value: The new type of ceramic material was prepared with interesting dielectric properties. Dispersion reverse of energy losses activated thermally and low frequency memory of barium titanate (BT) transition effect visible at ~400 K is to be a subject of modelling further work.
Rocznik
Strony
24--27
Opis fizyczny
Bibliogr. 16 poz., rys., tabl.
Twórcy
autor
  • Institute of Physics, Pedagogical University, ul. Podchorążych 2, 30-084 Kraków, Poland, wbak@ap.krakow.pl
Bibliografia
  • [1] M. E. Lines, A. M. Glass, Principles and applications of ferroelectrics and related materials, Claredon Press, Oxford, 2001.
  • [2] Landolt-Börnstein, New Series 3, Vol. 3, Springer-Verlag, Berlin-Heidelberg-New York, 1969.
  • [3] L. E. Cross, Relaxor ferroelectrics: An overview, Ferroelectrics 151 (1994) 305-320.
  • [4] C. Kajtoch, Long range electrical ordering in BaTiO3 - BaSnO3 solid solution, WSP, Cracow, 1998 (in Polish).
  • [5] W. Bąk, C. Kajtoch, F. Starzyk, J. Żmija, Evolution of electric polarization in paraelectric phase of BaTiO3, Archives of Materials Science and Engineering 33/2 (2008) 79-82.
  • [6] W. Bąk, Relaxor properties of Ba1-xNaxTi1-xNbxO3 at low temperatures, Archives of Materials Science and Engineering 34/1 (2008) 23-26.
  • [7] T. Dobrowolski, Kink production in the presence of random distributed impurities, Physical Review E 65, 046133 (2002).
  • [8] R. Von der Muhll, A. Simon, H. Khemakhem, J. Ravez, Pyroelectric and piezoelectric properties of new lead-free ceramics with composition Ba1-xNaxTi1-xNbxO3, Ann. Chim. Sci. Mat. 26 (2001) 127-130.
  • [9] H. Abdelkefi, H. Khemakhem, G. Velu, J.C. Carru, R. Von der Mühll, Dielectric properties of ferroelectric ceramics derived from the system BaTiO3 – NaNbO3 – based solid solutions, Solid State Sciences 6 (2004) 1347-1351.
  • [10] J. Ravez, A. Simon, Non-Stoichiometric Perovskites Derived from BaTiO3 with a Ferroelectric Relaxor Behaviour, Physica Status Solidi (a) 178 (2000) 793-797.
  • [11] F. Bahri, H. Khemakhem, M. Gargouri, A. Simon, R. Von der Muhll, J. Ravez, Dielectric and Raman studies on the solid solution (1-x)BaTiO3/xNaNbO3 ceramics, Solid State Sciences 5 (2003) 1445-1450.
  • [12] K. Itoh, L. Z. Zeng, E. Nakamura, N. Mishima, Crystal structure of BaTiO3 in the cubic phase, Ferroelectrics 63 (1985) 29-37.
  • [13] S. Khemakhem, S. Yahyaoui, R. B. Hassen, H. Khemakhem, A. B. Salah, Crystal structure and electrical behaviour of the new ceramic Ba0.7Na0.3Ti0.7Nb0.3O3, Solid State Sciences 5 (2003) 367-371.
  • [14] M. Gabryś, Dielectric properties of polycrystalline (Ba0.60Sr0.40)Ti0.8O3, Archives of Materials Science and Engineering 34/1 (2008) 27-30.
  • [15] W. Bąk, Characterization of Ba1-xNaxTi1-xNbxO3 ceramic by dielectric spectroscopy, Archives of Materials Science and Engineering 34/1 (2008) 5-8.
  • [16] F. Starzyk, Parameterisation of interdigit comb capacitor for dielectric impedance spectroscopy, Archives of Materials Science and Engineering 34/1 (2008) 31-34.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BOS2-0021-0002
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