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Progress Towards the Miniaturization of an Ultrasonic Scalpel for Robotic Endoscopic Surgery Using Mn:PIN-PMN-PT High Performance Piezocrystals

Nicola Giuseppe Fenu, Nathan Giles-Donovan, Xuan Li, Zhu Liang, Abdul Hadi Chibli, Haosu Luo, Chris Stock, Shujun Zhang, Margaret Lucas, S. Cochran

Year
2020
Citations
2

Abstract

Mn:PIN-PMN-PT piezocrystals are under consideration for potential use in miniaturised ultrasonic scalpels for robotic minimally-invasive surgery where small size and light weight may be advantageous. Electromechanical coupling coefficient k > 0.9 for both [001] and [011] poled Mn:PIN-PMN-PT was calculated, confirming the well-recognized higher efficiency of this material when compared to standard piezoceramics. Novel transducer design strategies have been explored, and outcomes are discussed. The introduction of components with additional compliance in a standard d <sub xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">31</sub> mode transducer has been shown to drop the resonant frequency of the first longitudinal mode by more than 17%, with more than 75% improvement in tip/blade displacement. Results suggest that the combination of high performance piezocrystals with highly compliant components may be a useful route to follow to achieve our miniaturisation target.

Keywords

MiniaturizationTransducerUltrasonic sensorElectromechanical coupling coefficientMaterials sciencePiezoelectricityCoupling coefficient of resonatorsAcoustic impedanceDisplacement (psychology)Biomedical engineering

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