References
- IEEE Trans. on Ultrason., Ferroelect. and Freq. Control v.43 no.3 A Model for the Hydrostatic Pressure Response of a 1-3 Composite Robert E. Montgomery;Claude Richard
- IEEE Trans. on Ultrason., Ferroelect. and Freq. Control v.43 no.1 Assessiong the Inlfluence of Pillar Aspect Ratio on the Behavior of 1-3 connectivity composite Transducers Gordon Hayward;Jeremy Bennett
- IEEE Trans. on Ultrason., Ferroelect. and Freq. Control v.38 no.6 Finite-Element Analysis of 1-3 Composite Transducers John A. Hossack;Gordon Hayward
- IEEE Trans. on Ultrason., Ferroelect. and Freq. Control v.38 no.1 Modeling 1-3 Composite Piezoelectrics: Thickness-Mode Oscillations Wallace Arden Smith;Bertram A. Auld
- Ann. Rev. Mater. Sci. v.16 Composite Electroceramics R. E. Newnham
- Ferroelectrics v.39 High Frequency Application of PZT/Polymer Composite Materials T. R. Gururaja;W. A. Schulze;T. R. Shrout;L. Webster;L. E. Cross
- IEEE Tans. on Ultrason., Ferroelect. and Freq. Control v.36 no.4 Simple Model for Piezoelectric Ceramic/Polymer 1-3 Composites Used in Ultrasonic Transducer Applications Helen Lai Wah Chan;Joseph Unsworth
- IEEE, Ultrasonic Symp. Composite Piezoelectric Transducer T. R. Gururaja(et al.)
- Ultrasonic Transducers for Nondestructive Testing M. G. Silk
- IEEE Trans. on Ultrason., Ferroelect. and Freq. Control v.37 no.6 Acoustic Properties of particle/Polymer Composites for Ultrasonic Transducer Backing Applications Martha G. Grewe;T. R. Gururaja;Thomas R. Shrout;Robert E. Newnham
- Principles of Acousitc Devices Velimir M. Ristic
- IEEE Transactions on Sonics and Ultrasonics v.SU-25 no.3 The Design of Efficient Broad-Band Piezoelectric Transducers Charles S. Desilets;John D. Fraser;Gordon S. Kino
- The Journal of the Acoustical Society of Korea v.15 no.5 Design of Matching Layers for High Efficiency-Wide Band Ultrasonic Transducers Yeonbo Kim;Yongrae Roh