Please use this identifier to cite or link to this item: https://dipositint.ub.edu/dspace/handle/2445/184552
Title: Concurrent tracking of strain and noise bursts at ferroelastic phase fronts
Author: Blaysat, Benoît
Balandraud, Xavier
Grédiac, Michael
Vives i Santa-Eulàlia, Eduard
Barrera, Noemi
Zanzotto, Geovanni
Keywords: Transformacions de fase (Física estadística)
Ciència dels materials
Phase transformations (Statistical physics)
Materials science
Issue Date: 4-Feb-2020
Publisher: Springer Nature
Abstract: Many technological applications are based on functional materials that exhibit reversible first-order ferroelastic transitions, including elastocaloric refrigeration, energy harvesting, and sensing and actuation. During these phase changes inhomogeneous microstructures are formed which fit together different crystalline phases, and evolve abruptly through strain bursts related to domain nucleation and the propagation of phase fronts, accompanied by acoustic emission. Mechanical performance is strongly affected by such microstructure formation and evolution, yet visualisation of these processes remains challenging. Here we report a detailed study of the bursty dynamics during a reversible stress-induced martensitic transformation in a CuZnAl shape-memory alloy. We combine full-field strain-burst detection, performed by means of an optical grid method, with the acoustic tracking of martensitic strain avalanches using two transducers, which allows for the location of the acoustic-emission events to be determined and the measurement of their energies. The matching of these two techniques reveals interface formation, advancement, jamming and arrest at pinning points within the transforming crystal.
Note: Reproducció del document publicat a: https://doi.org/10.1038/s43246-020-0007-4
It is part of: Communications Materials, 2020, vol. 1, num. 3, p. 1-7
URI: https://hdl.handle.net/2445/184552
Related resource: https://doi.org/10.1038/s43246-020-0007-4
ISSN: 2662-4443
Appears in Collections:Articles publicats en revistes (Física de la Matèria Condensada)

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