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2019 | OriginalPaper | Chapter

1. Introduction

Author : Hornsen (HS) Tzou

Published in: Piezoelectric Shells

Publisher: Springer Netherlands

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Abstract

In this book, generic double-curvature piezoelectric shell theories are derived; generic distributed structural sensing, identification, energy harvesting and vibration control theories of a generic deep shell continuum are presented. Open and closed-loop dynamic system equations and state equations of piezoelectric structronic systems are formulated. Simple reduction procedures are proposed and applications to other common geometries and structures are demonstrated in case studies. The revised book not only corrected typos and minor mistakes, but also added new chapters on optimal control of parabolic shells and energy harvesting of shells, including both theoretical and experimental aspects. Furthermore, laboratory and experimental components are added to, almost, all chapters on distributed sensing, energy harvesting and control of shell and non-shell structures and structronic systems. Note that performances of piezoelectric sensors/harvesters/actuators are restricted by breakdown voltages, hysteresis effects, limited strain rates, etc. These material properties need to be further improved in order to enhance the sensor/actuator performance and efficiency. Also, laboratory experiments were carried out over time; different materials with various dielectric constants from different venders were used in various studies presented in newly added Chaps. 10–12. Extreme care should be taken when repeating those studies. It should be pointed out that all piezoelectric shell theories and distributed sensing/control and energy harvesting theories are based on a symmetrical hexagonal piezoelectric structure—class C_6v = 6 mm. Extension of these theories to more generic piezoelectric materials, such as a triclinic structure, would make them even more comprehensive and versatile. Besides, the temperature effect, e.g., the pyroelectricity and thermal induced stress/strains, is not considered in all studies; it should be considered when a working environment has significant temperature variations.

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next chapter Piezoelectric Shell Vibrations

Adelman, N.T. and Stavsky, Y., 1975a, “Axisymmetric Vibrations of Radially Polarized Piezoelectric Ceramic Cylinders,” J. Sound and Vibration, 38(2), pp.245-254.MATHCrossRef

Adelman, N.T. and Stavsky, Y., 1975b, “Vibrations of Radially Polarized Composite Piezoelectric Cylinders and Disks,” J. Sound and Vibration, 43(1), pp.37-44.

Allik, H. and Hughes, T.J.R., “Finite Element Method for Piezoelectric Vibration”, Int. J. of Numerical Methods Eng., Vol. 2, 1979, pp.151-168.CrossRef

Anderson, E.H., Hagood, N.W., and Goodliffe, J.M., 1992, “Self-sensing Piezoelectric Actuation: Analysis and Application to Controlled Structures,” AIAA Paper: AIAA-92-2465-CP at 33 SDM Conference.

Ashley, S., 1995, “Smart Skis and Other Adaptive Structures, Mechanical Engineering, Vol.117, No.11, pp.76-81.

Banks, H.T. and Smith, R.C., 1998, “Numerical Techniques for Simulation, Parameter Estimation, and Noise Control in Structural Acoustic Systems,” in Dynamics and Control of Distributed Systems, Tzou, H.S. and Bergman, L.A., (Ed), Cambridge University Press, New York, pp.202-263.

Baz A. and Poh S., 1988, “Performance of an Active Control System with Piezoelectric Actuators,” Journal of Sound and Vibration, Vol.126, No.2, pp.327-343.CrossRef

Baz A. and Ro, J., 1994, “The Concept and Performance of Active Constrained Layer Damping Treatments,” J. of Sound and Vibration, Vol.28, No.3, pp.18-21.

Cady, W.G., Piezoelectricity, Dover Pub., New York, 1964.

Chai, W.K., DeHaven, J.G. and Tzou, H.S., 2005, “Distributed Micro-control Characteristics of Shallow Conical Shell Sections,” Journal of Vibration and Control, Vol.11, No.11, pp.1397-1411.

Chai, W.K., Tzou, H.S., 2007, “Design and Testing of a Hybrid Electrostrictive/Piezoelectric Polymeric Beam with Bang-bang Control,” Mechanical Systems and Signal Processing (Journal of), Vol.21, pp.417-429.CrossRef

Chai, W.K., Tzou, H.S., Arnold, S.M. and Lee, H.J., 2008, “Magnetostrictive Micro-actuations and Modal Sensitivities of Thin Cylindrical Magnetoelastic Shells,” ASME Transactions, Journal of Pressure Vessel Technology, Vol.130, pp.011206-011206-5.CrossRef

Chai, W.K., Tzou, H.S. and Higuchi, K., 2006, “Micro-actuation Characteristics of Conical Shell Sections,” Journal of Sound & Vibration. Vol.293, No1-2, pp.286-298.

Chau, L.K., 1986, “The Theory of Piezoelectric Shells,” PMM U.S.S.R., 50(1), pp.98-105.

Crawley, E.F. and de Luis, J., 1987, “Use of Piezoelectric Actuator as Elements of Intelligent Structures,” AIAA Journal, 25(10), pp.1373-1385.CrossRef

DeHaven, J.G., Han, Y. and Tzou, 2007, “Transition of Membrane/bending Neural Signals on Transforming Adaptive Shells,” Journal of Vibration and Control, Vol.13, No.7, pp.1007-1029.MATHCrossRef

Dökmeci, M.C., 1978, “Theory of Vibrations of Coated, Thermopiezoelectric Laminae,” J. Math. Phys., 19(1), January.

Dökmeci, M.C., 1980, “Vibrations of Piezoelectric Crystals,” J. Eng. Soc., 18, pp.431-448.MATHCrossRef

Dökmeci, M.C., 1983, “Dynamic Applications of Piezoelectric Crystals,” The Shock and Vibration Digest, 15(3), pp.9-22.CrossRef

Dosch, J.J., Inman, D.J., and Garcia, E., 1992, “A Self-sensing Piezoelectric Actuator for Collocated Control,” J. of Intell. Materl. Systems and Structures, Vol.3, pp.166-185.CrossRef

Drumheller, D.S. and Kalnins, A., 1970, “Dynamic Shell Theroy for Ferroelectric Ceramics,” J. Acoust. Soc. Am.,47(5), pp.1343-1349.

Erturk, A. and D. J. Inman, D.J., “A Distributed Parameter Electromechanical Model for Cantilevered Piezoelectric Energy Harvesters,” Journal of Vibration and Acoustics 130 (2008) 0410021-04100215.CrossRef

Fason J.L. and Gabra, J.A., 1988, “Experimental Studies of Active Members in Control of Large Space Structures,” AIAA Paper 88-2207.

Gabbert, U. and Tzou, H.S. (Edtr.), 2001, Smart Structures and Structronic Systems, IUTAM Symposium on Smart Structures and Structronic Systems, (ISBN 0-7923-6968-8), Kluwer Academic Publishers, Dordrecht/Boston/London.

Hanagud S. and Obal, M.W., 1988, “Identification of Dynamic Coupling Coefficients in a Structure with Piezoelectric Sensors and Actuators,” AIAA paper No.88-2418.

Haskins, J.F. and Walsh, 1957, “Vibration of Ferroelectric Cylindrical Shells with Transverse Isotropy,” J. Acoust. Soc. Am., 29, pp.729-734.

Howard, R.V., Chai, W.K. and Tzou, H.S., 2001, “Modal Voltages of Linear and Non-Linear Structures Using Distributed Artificial Neurons,” Mechanical Systems and Signal Processing 15, 629-640.CrossRef

Hu, S.D., Li, H. and Tzou, H.S., 2013a, “Flexoelectric responses of circular rings,” Journal of Vibration and Acoustics -Transactions of the ASME, 2013, 135(2): 021003.CrossRef

Hu, S.D., Li, H. and Tzou, H.S., 2013b, “Distributed Neural Signals on Parabolic Cylindrical Shells,” Journal of Sound and Vibration 332, 2984-3001.CrossRef

Hu, S.D., H. Li, H. and Tzou, H.S., 2014, “Comparison of Flexoelectric and Piezoelectric Dynamic Signal Responses on Flexible Rings,” Journal of Intelligent Material Systems and Structures 25, 832-844.CrossRef

Hu, S.D., Li, H. and Tzou, H.S., 2015, “Distributed flexoelectric structural sensing: Theory and experiment,” Journal of Sound and Vibration, 2015, 348(2015): 126-136.CrossRef

Koppe, H., Gabbert, U., and Tzou, H.S., 1998, “On Three-Dimensional Layered Piezoelectric Shell Elements for Design Simluation of Adaptive Structures, Fortschritt-Berichte VDI, Smart Mechanical Systems – Adaptronics, 1998.

Lee, C.K. and Moon, F., 1988, “Modal Sensors/Actuators,” IBM Report, RJ 6306 (61975), Research Division, IBM.

Lee K.M. and Arjunan, S., 1989, “A Three Degree of Freedom Micro-motion in Parallel Actuated Manipulator,” Proceedings of 1989 IEEE Intl. Conf. on Robotics and Automation, Vol.(3), pp.1698-1703.

Li, H.Y., Li, H. and Tzou, H.S., 2015, “Frequency Control of Beams and Cylinrical Shells with Light-Activated Shape Memory Polymers,” ASME Journal of Vibration and Acoustics, 37, p.011006.

Li, H., Hu, S. D., Tzou, H. S., and Chen, Z. B., 2012, “Optimal Vibration Control of Conical Shells with Collocated Helical Sensor/Actuator Pairs,” Journal of Theoretical and Applied Mechanics, 50(3), pp.769-784.

Lynch, T., 1996, “Piezoelectric Damper Hones Ski Performance,” Reprint from Design News, February 5.

Mason, W. P., 1950, Piezoelectric Crystals and Their Application to Ultrasonics, Nostrand, NY.

Mason, W.P., 1981, “Piezoelectricity, its History and Applications,” J. Acoust. Soc. Am., 70(6), Dec. 1981, pp.1561-1566.

Mindlin, R.D., 1961, “On the Equations of Motion of Piezoelectric Crystals, Problems on Continuum Mechanics, Radok, J., Editor, Soc. Ind. Appl. Math., Philadelphia, pp.282-290.

Mindlin, R.D., 1972, “High Frequency Vibrations of Piezoelectric Crystal Plates,” Inl. J. Solid Struc., Vol.(8), pp.895-906.MATHCrossRef

Nailon, M., Coursant, R.H., and Besnier, F., 1983, “Analysis of Piezoelectric Structures by a Finite Element Method”, ACTA Electronica, Vol.25, No.4, pp.341-362.

Obal, M.W., 1986, Vibration Control of Flexible Structures Using Piezoelectric Devices as Sensors and Actuators, Ph.D. Thesis, Georgia Institute of Technology.

Palazzolo, A.B., Lin, R.R., Kascak, R.R., and Alexander, R.M., 1989, “Active Control of Transient Rotordynamic Vibration by Optimal Control methods,” ASME Journal of Engineering for Gas Turbines and Power, Vol.(111), p.265.CrossRef

Paul, H.S., 1978, “Vibrations of a Hollow Circular Cylinder of Piezoelectric Ceramics,” J. Acoust. Soc. Am., 82(3), pp.952-956.CrossRef

Paul, H.S., 1982, “Asymptotic Analysis of the Modes of Wave Propagation in a Piezoelectric Solid Cylinder,” J. Acoust. Soc. Am., 71(2), pp.255-263.MATHCrossRef

Paul, H.S., 1986, “Axisymmetric Vibration of a Piezoelectric Solid Cylinder Guided by a Thin Film,” J. Acoust. Soc. Am., 80(4), pp.1091-1096.CrossRef

Paul, H.S., 1987, “Wave Propagation in a Piezoelectric Solid Cylinder of Arbitrary Cross Section,” J. Acoust. Soc. Am. 82(6), pp.2013-2020.CrossRef

Plumb, J.M., Hubbard, J.E., and Bailey, T., 1987, “Nonlinear Control of a Distributed System: Simulation and Experimental Results,” ASME Journal of Dynamic Systems, Measurements, and Control, 109(2), pp.133-139.

Polla, D.L., 1992, “Micromachining of Piezoelectric Microsensors and Microactuators for Robotics applications,” Precision Sensors, Actuators and Systems, Tzou and Fukuda (Ed.), Kluwer Pub., pp.139-174.

Robinson, A.C., 1971, “A Survey of Optimal Control of Distributed Parameter Systems”, Automatica 7, pp.371-388.MathSciNetMATHCrossRef

Rogacheva, N.N., 1982, “Equations of State of Piezoceramic Shells,” PMM U.S.S.R., 45(5), pp.677-684.MATHCrossRef

Rogacheva, N.N., 1984, “On Boundary Conditions in the Theory of Piezoceramic Shells Polarized Along Coordinate Lines,” PMM U.S.S.R., 47(2), pp.220-226.MathSciNetMATHCrossRef

Rogacheva, N.N., 1986, “Classification of Free Piezoceramic Shell Vibrations,” PMM U.S.S.R., 50(1), pp.106-111.MathSciNetMATHCrossRef

Rogacheva, N.N., 1994, The Theory of Piezoelectric Shells and Plates, CRC Press, Inc.

Sashida, T. and Kenjo, T., 1993, An Introduction to Ultrasonic Motors, Clarendon Press, Oxford.

Senik, N.A. and Kudriavtsev, B.A., 1980, “Equations on the Theory of Piezoceramic Shells,” In: Mechanics of a solid deformable body and related analytical problems. Moscow, Izd. mosk. Inst. Chim. Mashinostroeniia, U.S.S.R.

Sessler, G.M., 1981, “Piezoelectricity in Polyvinylidene Fluoride,” J. Acoust. Soc. Am., 70(6), pp.1596-1608.CrossRef

Shih H.R. and Tzou, H.S., 2005, “Structural Vibration Control Using Spatially Configured Opto-electromechanical Actuators,” Journal of Sound & Vibration, Vol.284, pp.361-378.CrossRef

Shih H.R. and Tzou, H.S., 2007, Photostrictive actuators for photonic control of shallow spherical shells,” Smart Materials and Structures, Vol.16, 1712–1717.CrossRef

Shih, H.R., Watkin. J. and Tzou, H.S., 2005, “Shape and Displacement Control of Beams via Photostrictive Optical Actuators,” Journal of Intelligent Structures and Material Systems. Vol.16, pp.355-363.

Sirlin, S.W., 1987, “Vibration Isolation for Spacecraft Using the Piezoelectric Polymer PVF₂,” Proc. of the 114th Meeting of the Acoustic Soc. Am., Nov.

Stavroulakis, P., 1983, Distributed Parameter System Theory, Part 1 _ 2, Hutchinson Ross Pub. Co. Stroudsburg, PA.

Smithmaitrie, P. and Tzou, H.S., 2004, Micro-control actions of actuator patches laminated on hemispherical shells, Journal of Sound and Vibration, 277, 691-710.CrossRef

Smithmaitrie, P. and Tzou, H.S., 2005, “Electro-dynamics, Micro-actuation and Design of Ultrasonic Curvilinear Arc Stators,” Journal of Sound & Vibration, Vol.284, pp.635-650.

Tiersten, H.F., 1969, Linear Piezoelectric Plate Vibrations, Plenum, New York.

Toupin, R.A., 1959, “Piezoelectric Relation and the Rachial Deformation of Polarized Spherical Shell,” J. Acoust. Soc. Am., 31(3), pp.315-318.

Tzou, H.S., 1987, “Active Vibration Control of Flexible Structures via Converse Piezoelectricity,” Development in Mechanics, 14(b), 20th Midwest Mechanical Conference, pp.1201-1206.

Tzou, H.S., 1988, “Integrated Sensing and Adaptive Vibration Suppression of Distributed Systems,” Recent Development in Control of Nonlinear and Distributed Parameter Systems, ASME-DSC-Vol.(10), December 1988, 51-58.

Tzou, H.S., 1989a, “Development of a Light-weight Robot End-effector using Polymeric Piezoelectric Bimorph,” Proceedings of 1989 IEEE Intl. Conf. on Robotics and Automation, Vol.(3), pp.1704-1709.

Tzou, H.S., 1989b, “Integrated Distributed Sensing and Active Vibration Suppression of Flexible Manipulators using Distributed Piezoelectrics,” Journal of Robotic Systems, Vol.(6.6), pp.745-767. December 1989.CrossRef

Tzou, H.S., 1990, Intelligent Piezoelectric Systems, Industrial Technology Research Institute, Mechanical Industry Research Laboratories, Hsinchu, Taiwan, ROC.

Tzou, H.S., 1991a, “Distributed Modal Identification and Vibration Control of Continua: Theory and Applications,” ASME Journal of Dynamic Systems, Measurements, and Control, 113(3), pp.494-499, September 1991.CrossRef

Tzou, H.S., 1991b, “Distributed Piezoelectric Neurons and Muscles for Shell Continua,” Structural Vibration and Acoustics, Ed. Huang, Tzou, et al., ASME-DE-Vol.34, pp.1-6, 1991 ASME 13th Biennial Conference on Mechanical Vibration and Noise, Symposium on Intelligent Structures and Systems, Miami, FL, September 22-25, 1991.

Tzou, H.S., 1992a, “A New Distributed Sensation and Control Theory for “Intelligent” Shells,” Journal of Sound _ Vibration, Vol.(152), No.(3), pp.335-350, March 1992.

Tzou, H.S., 1992b, Distributed Sensors and Actuators, Tutorial Notes (300 pages), 1992 IEEE International Conference on Intelligent Robots and Systems (IROS’92), Raleigh, NC, July 7-10, 1992.

Tzou, H.S., 1993, Piezoelectric Shells (Distributed Sensing and Control of Continua), Kluwer Academic Publishers.

Tzou, H.S. and Anderson, G.L. (Editors), 1992, Intelligent Structural Systems, ISBN No.0-7923-1920-6, 488 pages, Book, Kluwer Academic Publishers, Dordrecht/Boston/London, August 1992.

Tzou, H.S., and Bao, Y., 1998, “Analysis of Nonlinear Piezothermoelastic Laminated Beams with Electric and Temperature Effects,” Journal of Sound & Vibration, Vol.209, No.3, pp.505-518.

Tzou, H.S., Bao, Y., Venkayya, V.B., 1996a, “Study of Segmented Transducers Laminated on Cylindrical Shells, Part 1: Sensor Patches,” Journal of Sound & Vibration, Vol.197, No.2, pp.207 224.

Tzou, H.S., Bao, Y., Venkayya, V.B., 1996b, “Study of Segmented Transducers Laminated on Cylindrical Shells, Part 2: Actuator Patches,” Journal of Sound & Vibration, Vol.197, No.2, pp.225 249, October 1996.

Tzou, H.S., Chai, W.K. and Arnold, S.M., 2004, “Structronics and Actuation of Hybrid Electrostrictive/piezoelectric Thin Shells,” ASME Journal of Vibration and Acoustics. Vol.128, pp.79-87.CrossRef

Tzou, H.S., Chai, W.K. and Wang, D.W., 2003, “Modal Voltages and Micro-Signal Analysis of Conical Shells of Revolution,” Journal of Sound and Vibration 260, 589-609.CrossRef

Tzou, H. S., Chai, W. K., and Wang, D. W., 2004, “Micro-Control Actions and Location Sensitivity of Actuator Patches Laminated on Toroidal Shells,” Journal of Vibration and Acoustics-Transactions of the ASME, 126(2), pp.284-297.CrossRef

Tzou, H.S., Deng, B.L. and Li, H.Y., 2017, “Flexoelectric Actuation and Vibration Control of Ring Shells,” ASME Transactions, Journal of Vibration & Acoustics, Vol.139 -031014.

Tzou, H. S., Ding, J. H., and Hagiwara, I., 2002, “Micro-Control Actions of Segmented Actuator Patches Laminated on Deep Paraboloidal Shells,” JSME International Journal Series C-Mechanical Systems Machine Elements and Manufacturing, 45(1), pp. 8-15.CrossRef

Tzou, H. S. and Ding, J. H., 2004, “Optimal Control of Precision Paraboloidal Shell Structronic Systems,” Journal of Sound and Vibration, 276(1-2), pp.273-291.MathSciNetMATHCrossRef

Tzou, H.S. and Fu, H., 1994, “A Study of Segmentation of Distributed Sensors and Actuators, Part 2, Parametric Study and Vibration Controls,” Journal of Sound & Vibration, Vol.172, No.2, pp.261 276, April 1994.

Tzou, H.S. and Fukuda, T., 1991, Piezoelectric Smart Systems Applied to Robotics, Micro-Systems, Identification, and Control, Workshop Notes, IEEE Robotics and Automation Society, 1991 IEEE International Conference on Robotics and Automation, Sacramento, CA, April 7-12, 1991.

Tzou, H.S. and Fukuda, T. (Editors), 1992, Precision Sensors, Actuators, and Systems, Book (470 pages), Kluwer Academic Publishers, December 1992.

Tzou H.S. and Gadre, M., 1988, “Active Vibration Isolation by Piezoelectric Polymer with Variable Feedback Gain,” AIAA Journal, Vol.(26), No.8, 1014-1017.CrossRef

Tzou, H.S., and Gadre, M, 1989, “Theoretical Analysis of a Multi-Layered Thin Shell Coupled with Piezoelectric Shell Actuators for Distributed Vibration Control,” Journal of Sound and Vibration, 132(3), pp.433-450.CrossRef

Tzou H.S., and Gadre, M., 1990, “Active Vibration Isolation and Excitation by a Piezoelectric Slab with Constant Feedback Gains,” Journal of Sound and Vibration, Vol.136, No.3, pp.477-490.CrossRef

Tzou H.S. and Gabbert, U., 1997, STRUCTRONICS - A New Discipline and Its Challenging Issues, Fortschritt-Berichte VDI, Smart Mechanical Systems – Adaptronics, Reihe 11: Schwingungstechnik Nr.244, pp.245-250, Düsseldorf, Germany.

Tzou, H.S., Guran, A. (Editors), Gabbert, U., Tani, J. and Breitbach, A., (Associate Editors), 1998, Structronic Systems - Smart Structures, Devices, and Systems, Volume-2: Systems and Control, World Scientific Publishing Co., New Jersey/Singapore.

Tzou, H.S., Zhu, Y.T. and Hagiwara, I, 2002, “Distributed Precision Control of Structronic Shells and Common Shapes– A New Approach,” Recent Research Developments in Sound & Vibration, ISBN: 81-7895-031-6, Vol.1, Part-2, pp.613-646, TransWorld Research, 2002.

Tzou, H.S. and Hollkamp, J.J., 1994, “Collocated Independent Modal Control with Self Sensing Orthogonal Piezoelectric Actuators (Theory and Experiment),” Journal of Smart Materials and Structures, Vol.3, pp.277 284.CrossRef

Tzou, H.S., Johnson, D., and Liu, K.J., 1999, “Damping Behavior of Cantilever Structronic Systems with Boundary Control,” ASME Transactions, Journal of Vibration & Acoustics, pp.402-407, July 1999.

Tzou, H.S., Lee, H.J. and Arnold, S.M., 2004, “Smart Materials, Precision Sensors/Actuators, Smart Structures and Structronic Systems,” Mechanics of Advanced Materials and Structures, Vol.11, pp.367-393.CrossRef

Tzou, H. S., Smithmaitrie, P. and Ding, J. H., 2002, “Sensor Electromechanics and Distributed Signal Analysis of Piezo(Electric)-Elastic Spherical Shells,” Mechanical Systems and Signal Processing (Journal of), Vol.16(2-3), pp.185-199.CrossRef

Tzou H.S. and Tseng, C.I., 1990, “Distributed piezoelectric sensor/actuator design for dynamic measurement/control of distributed parameter systems: a finite element approach,” Journal of Sound and Vibration, Vol.(138), No.(1), pp.17-34.CrossRef

Tzou, H.S., and Tseng, C.I., 1991, “Distributed Modal Identification and Vibration Control of Continua: Piezoelectric Finite Element Formulation and Analysis,” ASME Journal of Dynamic Systems, Measurements, and Control, 113(3), pp.500-505, September 1991.CrossRef

Tzou, H.S. and Wang, D.W., 2002, “Micro-Sensing Characteristics and Modal Voltages Of Linear/Non-Linear Toroidal Shells,” Journal of Sound and Vibration, 2002, 254(2): 203-218.CrossRef

Tzou, H.S. and Wang, D.W., 2003, “Vibration Control of Toroidal Shells with Parallel Aand Diagonal Piezoelectric Actuators,” Journal of Pressure Vessel Technology -Transactions of the ASME, 2003, 125(2): 171-176.CrossRef

Tzou H.S. and Yang, R.J., 2000, “Nonlinear Piezo-thermoelastic Shell Theory applied to Control of Variable-geometry Shells,” Journal of Theoretical and Applied Mechanics, No.3, Vol.38, pp.623-644.

Tzou, H.S. and Ye, R., 1996a, “Analysis of Piezoelastic Systems with Laminated Piezoelectric Triangle Shell Elements,” AIAA Journal, Vol.34, No.1, pp.110 115.MATHCrossRef

Tzou, H.S. and Ye, R., 1996b, “Pyroelectric and Thermal Strain Effects in Piezoelectric (PVDF and PZT) Devices,” Mechanical Systems and Signal Processing (Journal of), Vol.10, No.4, pp.459 479.CrossRef

Tzou, H.S., Ye, R., and J. H. Ding 2001, “A New X-Actuator Design For Controlling Wing Bending And Twisting Modes,” Journal of Sound & Vibration, 241(2), pp.271-281.

Tzou, H.S. and Zhang, X.F., 2016, “A flexoelectric double-curvature nonlinear shell energy harvester,” Journal of Vibration and Acoustics -Transactions of the ASME, 2016, 138(3): 031006.CrossRef

Tzou, H.S., and Zhong, J.P., 1990, “Electromechanical Dynamics of Piezoelectric Shell Distributed Systems, Part-1: Theory,” Robotics Research-1990, ASME-DSC-Vol.26, pp.207-211, 1990 ASME Winter Annual Meetings, Dallas, Texas, Nov. 25-30, 1990; “Electromechanics and Vibrations of Piezoelectric Shell Distributed Systems,” ASME Journal of Dynamic Systems, Measurements, and Control, 1993.

Tzou, H.S., and Zhong, J.P., 1991, “Sensor Mechanics of Distributed Shell Convolving Sensors Applied to Flexible Rings,” Structural Vibration and Acoustics, Edrs. Huang, Tzou, et al., ASME-DE-Vol.34, pp.67-74, Symposium on Intelligent Structural Systems, 1991 ASME 13th Biennial Conference on Mechanical Vibration and Noise, Miami, Florida, September 22-25, 1991.

Tzou, H.S. and Zhong, J., 1996, “Spatially Filtered Vibration Control of Cylindrical Shells,” Shock and Vibration Journal, Vol.3, No.4, pp.269 278.CrossRef

Tzou, H.S., Zhong, J.P., and Natori, M.C., 1993, “Sensor Mechanics of Distributed Shell Convolving Sensors Applied to Flexible Rings,” ASME Transactions, Journal of Vibration & Acoustics, Vol.115, No.1, pp.40-46.CrossRef

Tzou, H.S., Zhong, J.P., and Hollkamp, J.J., 1994, “Spatially Distributed Orthogonal Piezoelectric Shell Actuators: Theory and Applications,” Journal of Sound & Vibration, Vol.177, No.3, pp.363-378.MATHCrossRef

Tzou, H.S. and Zhou, Y., 1995, “Dynamics and Control of Nonlinear Circular Plates with Piezoelectric Actuators,” Journal of Sound & Vibration, Vol.188, No.2, pp.189-207.CrossRef

Tzou, H.S., and Zhou, Y., 1997, “Nonlinear Piezothermoelasticity and Multi field Actuations, Part 2: Control of Nonlinear Buckling and Dynamics,” ASME Transactions, Journal of Vibration & Acoustics, Vol.119, pp.382-389.

Uchino, K., 1997, Piezoelectric Actuators and Ultrasonic Motors, Kluwer Academic Pub., Dordrecht/Boston/London.CrossRef

Ueha, S., Tomikawa, Y., Kurosawa, M., and Nakamura, N., 1993, Ultrasonic Motors, Clarendon Press, Oxford.

Wang, P.K.C., 1966, “On the Feedback Control of Distributed Parameter Systems”, Int. J. on Control, Vol. 3, No. 3, pp.255-273.MATHCrossRef

Wang, D.W., Tzou, H.S., Arnold, S.M. and Lee, H.J., 2006, “Control of Static Shape, Dynamic Oscillation and Thermally Induced Vibration of Nozzles,” ASME Transactions, Journal of Pressure Vessel Technology, Vol.128, pp.357-363.CrossRef

Ye, R. and Tzou, H.S., 2000, “Control of Adaptive Shells with Thermal and Mechanical Excitations,” Journal of Sound & Vibration, Vol.231(5), pp.1321-1338.CrossRef

Yue, H. H., Deng, Z. Q., and Tzou, H.S., 2008, “Optimal Actuator Locations and Precision Micro-Control Actions on Free Paraboloidal Membrane Shells,” Communications in Nonlinear Science and Numerical Simulation, 13(10), pp.2298-2307.CrossRef

Zhou, Y.H., and Tzou, H.S., 2000, “Active Control of Nonlinear Piezoelectric Circular Shallow Spherical Shells,” International Journal of Solids and Structures, 37(12), pp.1663-1677.MATHCrossRef

Zhang, X.F., Hu, S.D. and Tzou, H.S., 2014, A generic double-curvature piezoelectric shell energy harvester: Linear/nonlinear theory and applications, Journal of Sound and Vibration, 333, 7286-7298CrossRef

Zhang, X.F., Li, H.Y., and Tzou, H.S., 2016, “Analytical and Experimental Studies of Flexoelectric Beam Control,” ASME 2016 International Mechanical Engineering Congress & Exposition, IMECE2016, Paper No. IMECE2016-66527, Phoenix, Arizona, USA.

Title: Introduction
Author: Hornsen (HS) Tzou
Publisher: Springer Netherlands
Book: Piezoelectric Shells
Print ISBN: 978-94-024-1256-7

Electronic ISBN: 978-94-024-1258-1

Copyright Year: 2019
DOI: https://doi.org/10.1007/978-94-024-1258-1_1

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