Scale-invariant avalanche dynamics in the temperature-driven martensitic transition of a Cu-Al-Be single crystal

We have combined high sensitivity, extra-low differential temperature scanning rate calorimetry, and acoustic emission (AE) measurements to study avalanches during the cubic ↔ 18R martensitic transition of a Cu-Al-Be single crystalline shape memory alloy. Both AE and calorimetry corroborate a good p...

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Published in:Physical review. B 2019-06, Vol.99 (22), p.1, Article 224101
Main Authors: Romero, Francisco Javier, Martín-Olalla, José-María, Gallardo, María Carmen, Soto-Parra, Daniel, Salje, Ekhard K. H., Vives, Eduard, Planes, Antoni
Format: Article
Language:English
Subjects:
Acoustic emission testing
Aluminum
Avalanches
Beryllium
Copper
Damping
Differential thermal analysis
Dislocations
Emission analysis
Enthalpy
Heat measurement
Heat of transformation
Jamming
Martensitic transformations
Shape memory alloys
Single crystals
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cited_by cdi_FETCH-LOGICAL-c319t-b754445ef870fcb93c272f1cdcae4372e2e4fdf25a437b69957bb620e75b478a3
cites cdi_FETCH-LOGICAL-c319t-b754445ef870fcb93c272f1cdcae4372e2e4fdf25a437b69957bb620e75b478a3
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container_issue 22
container_start_page 1
container_title Physical review. B
container_volume 99
creator Romero, Francisco Javier
Martín-Olalla, José-María
Gallardo, María Carmen
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Salje, Ekhard K. H.
Vives, Eduard
Planes, Antoni
description We have combined high sensitivity, extra-low differential temperature scanning rate calorimetry, and acoustic emission (AE) measurements to study avalanches during the cubic ↔ 18R martensitic transition of a Cu-Al-Be single crystalline shape memory alloy. Both AE and calorimetry corroborate a good power-law behavior for cooling with an exponent ɛ≃1.6. For heating, a slope is observed in the maximum likelihood curves, which confirms that our data are affected by an exponential cutoff. An effective energy exponent, ɛ∼1.85, and a cutoff, λ−1=0.115(38)×10−3aJ, were determined by fits of power-laws with exponential damping. The long tail observed in the low-temperature region by calorimetric measurements suggests the existence of significant elastic effects that constrain the progress of the transformation at low temperatures. While thermodynamic features such as transformation enthalpy and entropy are those expected for Cu-based shape-memory alloys undergoing a cubic ↔ 18R transition, the critical behavior deviates from the corresponding behavior expected from this symmetry change. These deviations are a consequence of the elastic hardening induced by the interplay of the transformation with dislocation jamming, which has the effect of effectively reducing the number of pathways connecting the parent and martensitic phase.
doi_str_mv 10.1103/PhysRevB.99.224101
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source American Physical Society:Jisc Collections:APS Read and Publish 2023-2025 (reading list)
subjects Acoustic emission testing
Aluminum
Avalanches
Beryllium
Copper
Damping
Differential thermal analysis
Dislocations
Emission analysis
Enthalpy
Heat measurement
Heat of transformation
Jamming
Martensitic transformations
Shape memory alloys
Single crystals
title Scale-invariant avalanche dynamics in the temperature-driven martensitic transition of a Cu-Al-Be single crystal
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