![]() S.Wada, K.Takeda, T.Muraishi, H.Kakemoto, T.Tsurumi, T.Kimura, Preparation of grain oriented barium titanate ceramics by templated grain growth method and their piezoelectric properties, Jpn. C.Hong, H.Kim, B.Choi, H.Han, J.Son, et al., Lead-free piezoceramics-where to move on?, J. Damjanovic, Transferring lead-free piezoelectric ceramics into application, J. K.K.Sappati, B.Sharmistha, Flexible piezoelectric 0-3 PZT-PDMS thin film for tactile sensing, IEEE Sens. 5) NbO3-LiNbO3 lead-free piezoelectric ceramics, Mater. H.Du, F.Tang, D.Liu, D.Zhu, W.Zhou, S.Qu, The microstructure and ferroelectric properties of (K0. J.Ma, S.Xue, X.Zhao, F.Wang, Y.Tang, Z.Duan, T.Wang, W.Shi, Q.Yue, H.Zhou, H.Luo, High frequency transducer for vessel imaging based on lead-free Mn-doped (K0. Chen, Growth and properties of PMN-PT single crystals, Physica C Supercond. Haertling, Ferroelectric ceramics: history and technology, J. S.Zhang, F.Li, X.Jiang, J.Kim, J.Luo, X.Geng, Advantages and challenges of relaxor-PbTiO3 ferroelectric crystals for electroacoustic transducers-A review, Prog. Gallego-Juarez, Piezoelectric ceramics and ultrasonic transducers, J Phys E Sci Instrum. Fapeng, Piezoelectric materials for high temperature sensors, J. Thomas Shrout, Materials for high temperature acoustic and vibration sensors: A review, Appl. Wilson, Introduction to the Theory and Design of Sonar Transducers, Peninsula Publishing, Los Altos, CA, 1988, 65-124. Bernard, Antiferroelectric ceramics with field-enforced transitions: a new nonlinear circuit element, Proceedings of the IRE. Persson, A database to enable discovery and design of piezoelectric materials, Sci. Holloway, Electro-mechanical properties of the piezoelectric polymer PVDF, Ferroelectrics. Sessler, Piezoelectricity in polyvinylidene fluoride, J. Xu, Electric energy storage properties of poly(vinylidene fluoride), Appl. Rangelov, Piezoelectric materials: In Dynamic fracture of piezoelectric materials, Springer, Cham, 2014, pp. Part of the book on Advanced Functional Piezoelectric Materials and Applications Bharadwaj, Types, Properties and Characteristics of Piezoelectric Materials, Materials Research Foundations, Vol. Fundamental properties obtained from different characterization tools were concisely discussed with respect to piezoelectric materials which also show ferroelectric behavior.Ĭitation: Y. Several aspects and typical characteristic constants that are necessary for selection of suitable piezoelectric composition are very broadly highlighted in this chapter. Selection of suitable piezoelectric materials relies on several factors such as the type, Curie temperature, environmental stability, different physical properties and their characterization depending different measurement techniques. Piezoelectric materials are an important class of materials that find application in science and technology, in engineering and in modern warfare as pressure transducers, sensors and energy harvesting devices. Types, Properties and Characteristics of Piezoelectric Materials Y. ![]()
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