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The dielectric behaviour of polycrystalline Ba0.96Na0.04Ti0.96Nb0.04O3 solid solution

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The purpose of this work was to measure and investigate dielectric properties of new material, polycrystalline solid solution Ba0.96Na0.04Ti0.96Nb0.04O3 (BNTN4) within the temperature range 153 K-473 K. Design/methodology/approach: The dielectric spectroscopy method has been applied to measure dielectric and electric parameters within the frequencies from 20 Hz to 1 MHz. Findings: The dielectric permittivity (&epsilon') dependence on temperature (T) within the range of 473 K-225 K consist of two components: the reversly proportional one and the second one in the form of small local, transient peak at about 400 K. The global maximum is frequency dependent and above &sim 400 K along the T decrease, the dispersion of &epsilon' is initiated and low frequency dispersion of &epsilon' prevails below 250 K. Energy losses measure (&epsilon"), correlated with &epsilon'(T), is generally shifted towards lower T values. Its frequency dependence undergoes inversion which develops with T decrease and is initiated at about 370 K. The whole temperature induced phase transition turned out to be of relaxor kind and diffused process. The detailed analysis of this transition and its features was performed. Research limitations/implications: In order to determine the details of polycrystalline structure of BNTN4 new material for modelling of ferroelectric properties the precise X-ray diffraction measurements should be performed as function of T. The nature of ferroelectric - paraelectric (FE - PE) transition diffusive character will be studied by means of dielectric measurements within frequency range 1 MHz-1.8 GHz. Originality/value: The new kind of ferroelectric solid solution (BNTN4) was synthesized. The specific features of this material at low T range involves among others, the T-dependent dispersion of dielectric properties on low T side of broad &epsilon'(T) peak.
Rocznik
Strony
13--16
Opis fizyczny
Bibliogr. 16 poz.
Twórcy
autor
autor
autor
autor
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] C. Kajtoch, Long range electrical ordering in BaTiO3 - BaSnO3 solid solution, WSP, Cracow, 1998 (in Polish).
  • [3] L.E. Cross, Relaxor ferroelectrics: An overview, Ferroelectrics 151 (1994) 305-320.
  • [4] 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.
  • [5] W. Bąk, Relaxor properties of Ba1-xNaxTi1-xNbxO3 at low temperatures, Archives of Materials Science and Engineering 34/1 (2008) 23-26.
  • [6] R. Von der Muhll, A. Simon, H. Khemakhem, J. Ravez, Pyroelectric and piezoelectric properties of new lead-free ceramics with composition Ba1-xNaxTi1-xNbxO3, Annales de Chimie, Science des Materiaux 26 (2001) 127-130.
  • [7] T. Dobrowolski, Kink production in the presence of random distributed impurities, Physical Review E 65, 046133 (2002).
  • [8] 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.
  • [9] J. Ravez, A. Simon, Non-Stoichiometric Perovskites Derived from BaTiO3 with a Ferroelectric Relaxor Behaviour, Physica Status Solidi (a) 178 (2000) 793-797.
  • [10] 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.
  • [11] H. Khemakhem, A. Simon, R. Von Der Mühll, J. Ravez, Relaxor or classical ferroelectric behaviour with composition Ba1-xNaxTi1-xNbxO3, Journal of Physics: Condensed Matter 12 (2000) 5951-5959.
  • [12] W. Bąk, Characterization of Ba1-xNaxTi1-xNbxO3 ceramic by dielectric spectroscopy, Archives of Materials Science and Engineering 34/1 (2008) 5-8.
  • [13] K. Itoh, L.Z. Zeng, E. Nakamura, N. Mishima, Crystal structure of BaTiO3 in the cubic phase, Ferroelectrics 63 (1985) 29-37.
  • [14] S. Khemakhem, S. Yahyaoui, R.B. Hassen, H. Khemakhem, A.B. Salah, Crystal structure and electrical behavior of the new ceramic Ba0.7Na0.3Ti0.7Nb0.3O3, Solid State Sciences 5 (2003) 367-371.
  • [15] M. Gabryś, Dielectric properties of polycrystalline (Ba0.60Sr0.40)Ti0.8O3, Archives of Materials Science and Engineering 34/1 (2008) 27-30.
  • [16] F. Starzyk, Parametrisation 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-BSL7-0038-0002
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