Relaxor nature in lead-free Sr5LaTi3Nb7O30 tetragonal tungsten bronze ceramics

abstract

Lead-free tetragonal tungsten bronze Sr5LaTi3Nb7O30 ceramics were prepared and the correlation of the relaxor nature and crystal structure was studied using dielectric spectroscopy and powder X-ray diffraction. Three dielectric relaxations were observed below the deviation temperature T-D similar to 330 K. Relaxation I and II followed the Vogel-Fulcher law with the freezing temperatures of 189 K and similar to 90 K. Low temperature relaxation III, which was first observed in filled tungsten bronze, followed well the Arrhenius law. Dielectric response becomes static below 50 K. Polarization-field (P-E) hysteresis loops were evaluated from 183 K to 298 K. P-r value of 0.41 mu C/cm(2) was observed at 183 K. Deviation of lattice parameter c from the linear contraction and increasing of tetragonality (c/a ratio) were observed below T-D, reflecting the structure change during the formation of polar nanoregions and the following freezing process. Opposite tendency was observed below 100 K for all the lattice parameters, corresponding to relaxation III. Generally, the main dielectric relaxation I and II were attributed to flipping and breathing of polar nanoregions along c axis, while the concerted rotations of the oxygen octahedra in the ab plane were suggested as the origin of relaxation III. (C) 2013 AIP Publishing LLC.

keywords

PHASE-TRANSITION; SINGLE-CRYSTALS; FERROELECTRIC PROPERTIES; BEHAVIOR

subject category

Physics

authors

Zhu, XL; Li, K; Rafiq, MA; Liu, XQ; Chen, XM

our authors

Groups

acknowledgements

The present work was partially supported by National Science Foundation of China under Grant Nos. 51102210 and 51332006. X. L. Zhu acknowledges FCT for financial support (SFRH/BPD/82534/2011).

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