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A sample cell for in situ electric-field-dependent structural characterization and macroscopic strain measurements

Version 2 2024-06-13, 10:18
Version 1 2017-04-07, 13:38
journal contribution
posted on 2024-06-13, 10:18 authored by MJ Hossain, L Wang, Z Wang, NH Khansur, M Hinterstein, JA Kimpton, JE Daniels
When studying electro-mechanical materials, observing the structural changes during the actuation process is necessary for gaining a complete picture of the structure-property relationship as certain mechanisms may be meta-stable during actuation. In situ diffraction methods offer a powerful and direct means of quantifying the structural contributions to the macroscopic strain of these materials. Here, a sample cell is demonstrated capable of measuring the structural variations of electro-mechanical materials under applied electric potentials up to 10 kV. The cell is designed for use with X-ray scattering techniques in reflection geometry, while simultaneously collecting macroscopic strain data using a linear displacement sensor. The results show that the macroscopic strain measured using the cell can be directly correlated with the microscopic response of the material obtained from diffraction data. The capabilities of the cell have been successfully demonstrated at the Powder Diffraction beamline of the Australian Synchrotron and the potential implementation of this cell with laboratory X-ray diffraction instrumentation is also discussed.

History

Journal

Journal of synchrotron radiation

Volume

23

Pagination

694-699

Location

London, Eng.

eISSN

1600-5775

Language

eng

Publication classification

C1.1 Refereed article in a scholarly journal

Copyright notice

2016, International Union of Crystallography

Issue

3

Publisher

Wiley-Blackwell