Optimisation of adhesive-free high-frequency miniature class IV transducers incorporating single-element piezoelectric plates
Optimisation of adhesive-free high-frequency miniature class IV transducers incorporating single-element piezoelectric plates
Tissue biopsy under regional anaesthesia requires accurate localisation of the needle tip during penetration through skin and soft tissue. To enhance needle tip visibility in colour Doppler imaging, ultrasonically actuated needle systems based on bolted Langevin transducers have been developed. However, these systems impose design constraints as the needle length must be tuned to the transducer resonance, and their relatively large size limits the suitability for hand-held procedures. Flextensional transducers offer a compact alternative, enabling large displacement with minimal bulk piezoelectric material. This paper presents an optimisation study of three metal shell geometries for class IV miniature flextensional transducers, excited by hard piezoelectric plates to maximise displacement amplification. The transducers employ a negative interference fit between the piezoelectric plate and metal shell, introducing structural pre-stress without bonding or transition mechanisms. Additionally, the dynamic response and power density of the transducers are evaluated for different active materials, including piezoceramics (Pz54) and piezocrystals (Mn:PIN-PMN-PT). Experimental results show that, for identical dimensions, the Mn:PIN-PMN-PT transducer achieves a lower resonant frequency, reduced and near-resistive impedance, enhanced electromechanical coupling, higher mechanical Q, and increased power density compared with the piezoceramic counterpart.
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Wang, Yifei
e8f9e86a-4853-4e0f-a623-7066e3224d70
Zeng, Youheng
e3ff8e05-f5df-4010-bbeb-60d627c78703
Shi, Dongliang
ae85f52b-62da-4a8d-a51e-67fa440bac00
Huang, Zhihong
c7257cbd-2874-4c83-bc4b-1dd39661e6a2
Lam, Kwok-Ho
aa6d5d6e-09d0-4a1a-ba5f-7d45dd7fa1b7
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Wang, Yifei
e8f9e86a-4853-4e0f-a623-7066e3224d70
Zeng, Youheng
e3ff8e05-f5df-4010-bbeb-60d627c78703
Shi, Dongliang
ae85f52b-62da-4a8d-a51e-67fa440bac00
Huang, Zhihong
c7257cbd-2874-4c83-bc4b-1dd39661e6a2
Lam, Kwok-Ho
aa6d5d6e-09d0-4a1a-ba5f-7d45dd7fa1b7
Li, Xuan, Wang, Yifei, Zeng, Youheng, Shi, Dongliang, Huang, Zhihong and Lam, Kwok-Ho
(2026)
Optimisation of adhesive-free high-frequency miniature class IV transducers incorporating single-element piezoelectric plates.
Sensors and Actuators A: Physical, [117489].
(doi:10.1016/j.sna.2026.117489).
Abstract
Tissue biopsy under regional anaesthesia requires accurate localisation of the needle tip during penetration through skin and soft tissue. To enhance needle tip visibility in colour Doppler imaging, ultrasonically actuated needle systems based on bolted Langevin transducers have been developed. However, these systems impose design constraints as the needle length must be tuned to the transducer resonance, and their relatively large size limits the suitability for hand-held procedures. Flextensional transducers offer a compact alternative, enabling large displacement with minimal bulk piezoelectric material. This paper presents an optimisation study of three metal shell geometries for class IV miniature flextensional transducers, excited by hard piezoelectric plates to maximise displacement amplification. The transducers employ a negative interference fit between the piezoelectric plate and metal shell, introducing structural pre-stress without bonding or transition mechanisms. Additionally, the dynamic response and power density of the transducers are evaluated for different active materials, including piezoceramics (Pz54) and piezocrystals (Mn:PIN-PMN-PT). Experimental results show that, for identical dimensions, the Mn:PIN-PMN-PT transducer achieves a lower resonant frequency, reduced and near-resistive impedance, enhanced electromechanical coupling, higher mechanical Q, and increased power density compared with the piezoceramic counterpart.
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Accepted/In Press date: 10 January 2026
e-pub ahead of print date: 11 January 2026
Identifiers
Local EPrints ID: 508029
URI: http://eprints.soton.ac.uk/id/eprint/508029
ISSN: 0924-4247
PURE UUID: 5e6be81e-c82f-4fd8-aa7a-e83359443a8d
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Date deposited: 12 Jan 2026 17:34
Last modified: 13 Jan 2026 03:12
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Author:
Xuan Li
Author:
Yifei Wang
Author:
Youheng Zeng
Author:
Dongliang Shi
Author:
Zhihong Huang
Author:
Kwok-Ho Lam
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