论文信息 - Micro-moulded randomised piezocomposites for high frequency ultrasound imaging

Micro-moulded randomised piezocomposites for high frequency ultrasound imaging

1-3 piezocomposites that can operate at over 30 MHz are in demand to improve spatial resolution on a sub-millimetre level for biomedical ultrasound imaging applications. However, the fabrication of such materials remains a challenge as ultrafine dimensions are required in conventional composite designs. We have previously reported the design of randomised composites to eliminate coupling to lateral modes and to relax overall dimensional constraints. In this work, practical fabrication of composites based on these designs has been realised by using a novel micro-moulding approach combining gel casting with soft lithography. Impedance spectra of randomised composites confirm their advantage for suppressing spurious modes. Pulse-echo responses of two completed transducers operating at 30 and 70 MHz have demonstrated their functional performance.

[1] J. Ferreira,et al. Innovative fabrication of PZT pillar arrays by a colloidal approach , 2012 .

[2] J. Cannata,et al. A study of 1–3 pseudo-random pillar piezocomposites for ultrasound transducers , 2011, 2011 IEEE International Ultrasonics Symposium.

[3] R. Webster. Passive materials for high frequency piezocomposite ultrasonic transducers , 2010 .

[4] Jianhua Yin,et al. Effect of triangular pillar geometry on high- frequency piezocomposite transducers , 2010, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[5] J. Bamber,et al. 1–3 piezocomposite design optimised for high frequency kerfless transducer arrays , 2009, 2009 IEEE International Ultrasonics Symposium.

[6] S. Cochran,et al. Fundamental performance characterisation of high frequency piezocomposites made with net-shape viscous polymer processing for medical ultrasound transducers , 2008, 2008 IEEE Ultrasonics Symposium.

[7] S Cochran,et al. 1-3 connectivity piezoelectric ceramic-polymer composite transducers made with viscous polymer processing for high frequency ultrasound. , 2004, Ultrasonics.

[8] Gordon Hayward,et al. Analysis of spurious resonances in single and multi-element piezocomposite ultrasonic transducers , 2003, IEEE Symposium on Ultrasonics, 2003.

[9] J C Bamber,et al. Ultrasonic B-scanning: a computer simulation , 1980, Physics in medicine and biology.