Shape memory alloys exhibit a solid-to-solid phase transition that involves a temperature-driven rearrangement of their crystal structure and is responsible for their remarkable properties and numerous technological applications. Here, we propose a simple experiment that analyzes the sound emitted by a Ni 40Ti 50 Cu 10 bar at different temperatures as it undergoes a transition between its austenite and martensite phases. We show that the phase transition, which occurs slightly above room temperature, can be qualitatively detected by the ear and quantitatively described using a very simple experimental setup and sound analysis tools. Such a sound-based investigation provides an unusual and engaging way to experimentally introduce solid-to-solid phase transitions, that is suitable for undergraduate courses.
Listen! it's a phase transition. The sound of a shape memory alloy / Rozzi, Carlo Andrea; Lisotti, Annamaria; Goldoni, Guido; De Renzi, Valentina. - In: AMERICAN JOURNAL OF PHYSICS. - ISSN 0002-9505. - 93:10(2025), pp. 789-796. [10.1119/5.0217522]
Listen! it's a phase transition. The sound of a shape memory alloy
Rozzi, Carlo Andrea
;Lisotti, Annamaria;Goldoni, Guido
;De Renzi, Valentina
2025
Abstract
Shape memory alloys exhibit a solid-to-solid phase transition that involves a temperature-driven rearrangement of their crystal structure and is responsible for their remarkable properties and numerous technological applications. Here, we propose a simple experiment that analyzes the sound emitted by a Ni 40Ti 50 Cu 10 bar at different temperatures as it undergoes a transition between its austenite and martensite phases. We show that the phase transition, which occurs slightly above room temperature, can be qualitatively detected by the ear and quantitatively described using a very simple experimental setup and sound analysis tools. Such a sound-based investigation provides an unusual and engaging way to experimentally introduce solid-to-solid phase transitions, that is suitable for undergraduate courses.
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