Elastic anomalies associated with transformation sequences in perovskites: I. strontium zirconate, SrZrO₃

McKnight, Ruth E. A.; Howard, C. J.; Carpenter, M. A.

Title: Elastic anomalies associated with transformation sequences in perovskites: I. strontium zirconate, SrZrO₃
Creator: McKnight, Ruth E. A.; Howard, C. J.; Carpenter, M. A.
Relation: Journal of Physics: Condensed Matter Vol. 21, Issue 1
Publisher Link: http://dx.doi.org/10.1088/0953-8984/21/1/015901
Publisher: Institute of Physics (IOP) Publishing
Resource Type: journal article
Date: 2009
Description: Elastic behaviour associated with the hierarchy of tilting transitions in SrZrO₃ has been examined using resonant ultrasound spectroscopy on a ceramic sample at temperatures between 153 and 1531 K. Changes in slope of the evolution of resonance frequencies with temperature indicate that phase transitions occur at 1038 K (Pnma ↔ Imma), 1122 K (Imma ↔ I4/mcm), and 1367 K (I4/mcm ↔ Pm3m). Strain analysis of previously recorded neutron diffraction data shows that the I4/mcm ↔ Pm3m and Pnma ↔ Imma transitions are close to tricritical in character, and that Imma ↔ I4/mcm is first order. Deviations from the form of the elastic behaviour predicted by Landau theory are found. In particular, elastic softening in the vicinity of the Imma ↔ I4/mcm transition suggests that local dynamical fluctuations between individual tilt systems occur, rather than a discontinuous switch from one phase to another. Determinations of the mechanical quality factor, Q, show that SrZrO₃ in the Pm3m phase is a classically high-Q (i.e. non-dissipating) cubic material. I4/mcm and Imma phases both have much greater dissipation (low Q), which is tentatively attributed to the mobility of twin walls. The room temperature Pnma phase is unexpectedly much stiffer than both I4/mcm and Imma phases and has high Q. It appears that when two separate tilt systems operate, as in Pnma, they can interact to reduce strain/order parameter relaxations.
Subject: elasticity; strontium zirconate; resonant ultrasound spectroscopy; tilting transitions
Identifier: http://hdl.handle.net/1959.13/808644
Identifier: uon:7709
Identifier: ISSN:0953-8984
Language: eng
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