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Enhanced resolution phase transformations in a nitinol cymbal ultrasonic device

Enhanced resolution phase transformations in a nitinol cymbal ultrasonic device
Enhanced resolution phase transformations in a nitinol cymbal ultrasonic device
The traditional form of cymbal transducer is composed of cymbal endcaps bonded to a piezoelectric ceramic, whose radial vibrations drive relatively high amplitude endcap displacements. This transducer has been investigated for sonar and energy harvesting, but recent research has focused on adapting it for higher power applications, such as surgical cutting. In such procedures, there are known challenges in the efficient cutting of different materials, such as bone and muscular tissue, using one device. One viable method is to introduce adaptive dynamic properties, including operating frequency, by fabricating the caps with a shape memory alloy. Here, elastic modulus can be tuned by inducing a phase transformation, allowing rapid control of device dynamics. In this study, the temperature-dependent dynamics of a Nitinol cymbal device are examined using electrical impedance analysis and laser Doppler vibrometry, and practical aspects of introducing Nitinol into such devices are considered. The results show that a mixed austenitic and martensitic microstructure creates intermediate stiffnesses and exhibit the potential to administer minor temperature changes to achieve significant resonance shifts.
IEEE
Smith, Struan
eee1939f-8920-4571-8a62-2bd657e01baa
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Hafezi, Mahshid
c873e705-1a98-48d7-8c0b-6b9414fd008e
Barron, Paul
8a20df68-544a-4bd1-ab60-b2987d3ec36b
Lucas, Margaret
1f92f21c-bd4d-4c59-bfd1-0a7faf3adcc0
Feeney, Andrew
a8d5f65f-bca7-49e2-8e13-6909f928e97e
Smith, Struan
eee1939f-8920-4571-8a62-2bd657e01baa
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Hafezi, Mahshid
c873e705-1a98-48d7-8c0b-6b9414fd008e
Barron, Paul
8a20df68-544a-4bd1-ab60-b2987d3ec36b
Lucas, Margaret
1f92f21c-bd4d-4c59-bfd1-0a7faf3adcc0
Feeney, Andrew
a8d5f65f-bca7-49e2-8e13-6909f928e97e

Smith, Struan, Li, Xuan, Hafezi, Mahshid, Barron, Paul, Lucas, Margaret and Feeney, Andrew (2022) Enhanced resolution phase transformations in a nitinol cymbal ultrasonic device. In 2022 IEEE International Ultrasonics Symposium. IEEE.. (doi:10.1109/IUS54386.2022.9957560).

Record type: Conference or Workshop Item (Paper)

Abstract

The traditional form of cymbal transducer is composed of cymbal endcaps bonded to a piezoelectric ceramic, whose radial vibrations drive relatively high amplitude endcap displacements. This transducer has been investigated for sonar and energy harvesting, but recent research has focused on adapting it for higher power applications, such as surgical cutting. In such procedures, there are known challenges in the efficient cutting of different materials, such as bone and muscular tissue, using one device. One viable method is to introduce adaptive dynamic properties, including operating frequency, by fabricating the caps with a shape memory alloy. Here, elastic modulus can be tuned by inducing a phase transformation, allowing rapid control of device dynamics. In this study, the temperature-dependent dynamics of a Nitinol cymbal device are examined using electrical impedance analysis and laser Doppler vibrometry, and practical aspects of introducing Nitinol into such devices are considered. The results show that a mixed austenitic and martensitic microstructure creates intermediate stiffnesses and exhibit the potential to administer minor temperature changes to achieve significant resonance shifts.

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More information

Published date: October 2022
Venue - Dates: IEEE International Ultrasonics Symposium (IUS), , Venice, Italy, 2022-10-10 - 2022-10-13

Identifiers

Local EPrints ID: 497992
URI: http://eprints.soton.ac.uk/id/eprint/497992
DOI: doi:10.1109/IUS54386.2022.9957560
PURE UUID: e1f42de4-18e0-463d-9cf4-ff936f28b403
ORCID for Xuan Li: ORCID iD orcid.org/0000-0002-5655-8631

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Date deposited: 05 Feb 2025 18:17
Last modified: 06 Feb 2025 03:15

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Contributors

Author: Struan Smith
Author: Xuan Li ORCID iD
Author: Mahshid Hafezi
Author: Paul Barron
Author: Margaret Lucas
Author: Andrew Feeney

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