Volume 5, Issue 2, March 2016, Page: 89-94
Performance Simulation and Fabrication of PZT Piezoelectric Composite Ring
Wang Hong-wei, Science College, Beijing Information Science and Technology University, Beijing, China
Received: May 3, 2016;       Published: May 4, 2016
DOI: 10.11648/j.ijmsa.20160502.19      View  2785      Downloads  95
High-frequency wideband omnidirectional transducer is the development direction of the research of underwater acoustic transducer, PZT piezoelectric composite ring is not only capable of horizontal omnidirectional transmitting and receiving underwater acoustic signal. Meanwhile, it also makes the bandwidth of the transducer is expanded. Using the ANASYS finite element simulation software, the modal simulation of the ring structure of the 2-2 type piezoelectric composite is carried out, and the relationship curve of the bandwidth and the structure size is obtained. Based on the simulation, a design scheme is formed, cutting circular piezoelectric ceramics along the axial direction, there is epoxy resin in the groove. Thus the 2-2 type piezoelectric composite circular tube is formatted. The piezoelectric composite circular tubes suitable for horizontal omnidirectional broadband transducer.
2-2 Piezoelectric Composite, Simulation, Fabrication, Properties
To cite this article
Wang Hong-wei, Performance Simulation and Fabrication of PZT Piezoelectric Composite Ring, International Journal of Materials Science and Applications. Vol. 5, No. 2, 2016, pp. 89-94. doi: 10.11648/j.ijmsa.20160502.19
Li Li.1 -3 type of piezoelectric composite materials and underwater acoustic transducer research. Beijing University of Posts and Telecommunications doctoral dissertation. May 2008.
Bin Zhang, Likun Wang, Lei Qin etc. Influence of Volume Fraction of Piezoelectric Ceramics on Popertiesof PZT672/Epoxy1-3 Piezocomposite. Advanced Materials Research Vols. 989-994 (2014) pp 364-368.
Chen Junbo, Wang Yuebing, Zhong Lin Jian. 1-3 type piezoelectric composite and ordinary PZT transducer performance contrast analysis. Acoustic and electronic engineering, 2007 (3): p25-27.
Sherman C H, Butler J L. Transducers and arrays for underwater sound [M]. Springer, 2007.
Christopher J, Purcell A, Richard F. Multi-mode pipe projector: United States, 6584039 [P]. 2003-06-24.
Alexander L. Butler, John L. Bultler•Multi Ply Resonant Wideband Transducer APP aratus, 2005, US6950373B2.
Xian Xiaojun, Lin Shuyu, Deng pan Wang, Ma chin Yi. Based on 1-3-2 type piezoelectric composite electric broadband acoustic transducer, piezoelectric and acoustooptic, Vol 36 No. 4, August 2014.P491-497.
Coehran S, Parker M, Franeh P M. Ultrabroadband single crystal composite Transducers for underwater ultrasound. IEEE Ultrasonics Symposium. Netherlands, 2005: 231-234P.
Elmash I C, Koymen H A. A wideband and a wid-beamwidth acoustic transducer design for underwater acoustic communications. OCEANS 2006-Asia Pacific. SingaPore, 2007: l-5P.
Zhi T, Yongae R, Wonho K. Optimal design of an underwater Piezocomposite ring transducer. IEEE Ultrasonic symposium. China, 2008: 1405-1408P.
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