REFERENCES
- Gururaja , T. R. , Schulze , W. A. , Shrout , T. R. , Safari , A. , Webster , L. and Cross , L. E. 1981 . “High frequency applications of PZT/polymer composite materials” . Ferroelectrics , 39 : 1245 – 1248 .
- Smith , W. A. and Auld , B. A. 1991 . “Modeling 1–3 composite piezoelectrics: Thickness-mode oscillations” . IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control , 38 : 40 – 47 .
- Smith , W. A. and Auld , B. A. 1991 . “Modeling 1–3 composite piezoelectrics: Thickness-mode oscillations” . IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control , 38 : 40 – 47 .
- Chan , H. L. W. and Unsworth , J. 1989 . “Simple model for piezoelectric ceramic/polymer 1–3 composites used in ultrasonic transducer applications” . IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control , 36 ( 4 ) : 434 – 441 .
- Cao , W. W. , Zhang , Q. M. and Cross , L. E. 1992 . “Theroretical study on the static performance of piezoelectric ceramic-polymer composites with 1–3 connectivity” . Journal of Applied Physics , 72 ( 12 ) : 5814 – 5821 .
- Zhang , Q. M. , Cao , W. W. , Wang , H. and Cross , L. E. 1993 . “Characterization of the performance of 1–3 type piezocomposites for low-frequency applications” . Journal of Applied Physics , 73 ( 3 ) : 1403 – 1410 .