REFERENCES
- Yoon, C.B.; Lee, S.M.; Lee, S.H.; Kim, H.E.; Lee, K.W. Transverse 1-3 piezoelectric ceramic/polymer composite with multi-layered PZT ceramic blocks. Sensors and Actuators: A-Physical 2007, 2 (134), 480–485.
- Chong, C.P.; Li, H.L.; Chan, H.L.W.; Liu, P.C.K. Study of 1-3 composite transducer for ultrasonic wirebonding application. Ceramics International 2004, 7 (30), 1141–1146.
- Chong, C.P.; Chan, H.L.W.; Ng, M.W.; Liu, P.C.K. Effect of hybrid structure (1-3 composite and ceramic) on the performance of sandwich transducers. Materials Science and Engineering: B 2003, 1–3 (99), 6–10.
- Wang, D.Y.; Li, K.; Chan, H.L.W. High frequency 1-3 composite transducer fabricated using sol-gel derived lead-free BNBT fibers. Sensors and Actuators A: Physical 2004, 1 (114), 1–6.
- Steinhausen, R.; Hauke, T.; Seifert, W.; Beige, H.; Watzka, W.; Seifert, S.; Sporn, D.; Starke, S.; Schönecker, A. Finescaled piezoelectric 1–3 composites: properties and modeling. Journal of the European Ceramic Society 1999, 6–7 (19), 1289–1293.
- Sakthivel, M.; Arockiarajan, A. An analytical model for predicting thermo-electro-mechanical response of 1-3 piezoelectric composites. Computational Materials Science 2010, 4 (48), 759–767.
- Sapsathiarn, Y.; Senjuntichai, T.; Rajapakse, R.K.N.D. Cylindrical interface cracks in 1-3 piezocomposites. Composites Part B: Engineering 2012, 5 (43), 2257–2264.
- Qin, L.; Wang, L.K.; Lu, Y. Decoupling in multi-element composite for transducer array application. Current Applied Physics 2011, 3 (11), S368–S370.
- Obaidat, M.S.; Khalid, H.; Sadoun, B. Ultrasonic transducer characterization by neural networks. Information Sciences 1998, 1–4 (107), 195–215.
- Cianci, E.; Foglietti, V.; Memmi, D.; Caliano, G.; Caronti, A.; Pappalardo, M. Fabrication of capacitive ultrasonic transducers by a low temperature and fully surface-micromachined process. Precision Engineering 2002, 4 (26), 347–354.
- Callens, D.; Bruneel, C.; Assaad, J. Matching ultrasonic transducer using two matching layers where one of them is glue. NDT & E International 2004, 8 (37), 591–596.