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Piezoelectric Composite Actuators with Functionally Graded Microstructure [FGM] download acrobat

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  1. Li, J.F., Takagi, K., Ono, M., Pan, W., Watanabe, R., Almajid, A., and Taya, M., 2003, “Fabrication and Evaluation of Porous Piezoelectric Ceramics and Porosity-Graded Piezoelectric Actuators”, J. Am. Ceram. Soc., vol. 86, pp.1094-1098.

  2. Taya, M., Almajid, A., Dunn, M., and Takahashi, H., 2003, “Design of Bimorph Piezo Composite Actuators with Functionally Graded Microstructure”, Sensors and Actuators A107., pp.248-260

  3. Takagi, K, Li, J., Yokuyama, S., Watanabe, R., Almajid, A., and Taya, M., 2002, “Design and Fabrication of Functionally Graded PZT/Pt Piezoelectric Bimorph Actuator”, Advanced Materials, 3, pp.217-224.

  4. A. Almajid, M. Taya, S. Hudnut, 2001, "Analysis of out-of-plane displacement and Stress Field in a Piezoelectric Composite with Functionally Graded Microstructure", Intl, J. Solids and Structures, 38, pp.3377-3391

  5. S. Hudnut, A. Almajid, M. Taya, 2000, "Functionally Gradient Piezoelectric Bimorph Type Actuator", Proceedings of SPIE meeting on Smart Structures and Materials, March 5-9, New Port Beach, CA, Symposium on Active Materials: Behavior and Mechanics, vol. 3992, pp.376-386

  6. A. Almajid, S. Hudnut, M. Taya, 2000, "Modeling of finger-like FGM piezoelectric actuator", Proceedings of SPIE meeting on Smart Structures and Materials, March 5-9, New Port Beach, CA, Symposium on Active Materials: Behavior and Mechanics, vol. 3985, pp.742-749

 
     
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