论文信息 - Operational principle, fabrication and displacement characteristics of a functionally gradient piezoelectric ceramic actuator

Operational principle, fabrication and displacement characteristics of a functionally gradient piezoelectric ceramic actuator

Abstract In this paper, the theoretical relationship between the bending displacement at the free end of a functionally gradient material (FGM) actuator and the FGM coefficient of the sandwich has been derived from the structure of an FGM actuator. FGM actuators based on PNN-PZT piezoelectric ceramics have been developed by the powder mould stacking press method and their displacement characteristics have also been measured. The results show that the bending displacement at the free end of a 20 mm×8 mm×0.7 mm FGM actuator is about 20 μm when a voltage of 1000 V is applied. The morphology and the compositional distribution across the profile of the FGM actuator are examined by using SEM and EDS, respectively.

Xinhua Zhu | Zhongyan Meng | Xinhua Zhu | Z. Meng | Xinhua Zhu

[1] D. Berlincourt,et al. Domain Processes in Lead Titanate Zirconate and Barium Titanate Ceramics , 1959 .

[2] R. Newnham,et al. Piezoelectric composites with high sensitivity and high capacitance for use at high pressures , 1991, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[3] A. Yamaji,et al. Preparation, Characterization, and Properties of Dy‐Doped Small‐Grained BaTiO3 Ceramics , 1977 .

[4] A. Safari,et al. Poling of Lead Zirconate Titanate Ceramics and Flexible Piezoelectric Composites by the Corona Discharge Technique , 1989 .

[5] P. G. Harper,et al. The piezoelectric bimorph: An experimental and theoretical study of its quasistatic response , 1978 .

[6] Gene H. Haertling,et al. Rainbow Ceramics-A New Type of Ultra-High-Displacement Actuator , 1994 .

[7] W.P. Robbins,et al. High-displacement piezoelectric actuator utilizing a meander-line geometry I. Experimental characterization , 1991, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[8] Kenji Uchino,et al. Metal–Ceramic Composite Actuators , 1992 .

[9] E. A. Little. The dynamic behavior of domain walls in barium titanate , 1954 .

[10] Robert Gerson,et al. Variation in Ferroelectric Characteristics of Lead Zirconate Titanate Ceramics Due to Minor Chemical Modifications , 1960 .