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Author Fang, Daining
Title Analysis of Piezoelectric Structures and Devices
Imprint Berlin/Boston : De Gruyter, Inc., 2013
©2013
book jacket
Descript 1 online resource (312 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Note Intro -- Chapter 1 Non-uniform Actuations of Plates and Shells with Piezoelectric and Photostrictive Skew-quad Actuator Designs -- 1.1 Introduction -- 1.2 New SQ actuator system -- 1.2.1 The distribution profile of induced non-uniform forces and moments -- 1.2.2 Design of an SQ actuator system -- 1.3 Plate control with a piezoelectric SQ actuator system -- 1.3.1 Non-uniform forces and moments induced by the SQ actuator system -- 1.3.2 Modal control -- 1.3.3 Case studies: control of plates -- 1.3.4 Closed-loop actuation with collocated sensors and actuators -- 1.3.5 Summary of non-uniform piezoelectric actuations of plates -- 1.4 Cylindrical shell control with photostrictive SQ actuator systems -- 1.4.1 Uniform and non-uniform photostrictive actuation -- 1.4.2 Photostrictive SQ actuator -- 1.4.3 Modal control -- 1.4.4 Case studies: photostrictive actuation of shells -- 1.4.5 Closed-loop actuation with paired SQ actuator systems -- 1.4.6 Summary of non-uniform photostrictive actuations of shells -- 1.5 Summary -- References -- Appendix -- Chapter 2 Structural Theories of Multiferroic Plates and Shells -- 2.1 Introduction -- 2.2 Basic formulations -- 2.3 Laminated multiferroic shell equations in orthogonal curvilinear coordinates -- 2.4 Equations of first-order theory for laminated multiferroic shells -- 2.5 Equations for flat plates and cylindrical/spherical shells -- 2.5.1 Flat plates -- 2.5.2 Cylindrical shells -- 2.5.3 Spherical shells -- 2.6 Applications: evaluation of magnetoelectric effects -- 2.6.1 Magnetoelectric effect in multiferroic bilayers -- 2.6.2 Magnetoelectric effect of multiferroic spherical shell laminates -- 2.7 Summary -- References -- Appendix -- Chapter 3 Piezoelectric Power/Energy Harvesters -- 3.1 Introduction -- 3.2 Basic structure of a piezoelectric power/energy harvester -- 3.3 Piezoelectric power harvesters
3.3.1 The related researches on piezoelectric power harvesters -- 3.3.2 Coupling analysis of piezoelectric power harvesters -- 3.3.3 Numerical results -- 3.3.4 Investigation on frequency shift of piezoelectric power harvesters -- 3.3.5 Broadband design of piezoelectric power harvesters -- 3.4 Piezoelectric energy harvesters -- 3.4.1 Component portions of piezoelectric energy harvesters -- 3.4.2 Integrated analysis of piezoelectric energy harvesters -- 3.4.3 Numerical results -- References -- Chapter 4 A Two-dimensional Analysis of Surface Acoustic Waves in Finite Piezoelectric Plates -- 4.1 Introduction -- 4.2 A two-dimensional analysis of surface acoustic waves in finite isotropic elastic plates -- 4.2.1 Surface acoustic waves in an infinite isotropic elastic plate -- 4.2.2 Two-dimensional equations for finite isotropic elastic plate -- 4.2.3 Conclusions -- 4.3 A two-dimensional analysis of surface acoustic waves in finite anisotropic elastic plates -- 4.3.1 Surface acoustic waves in semi-infinite anisotropic solids -- 4.3.2 Two-dimensional equations for finite anisotropic elastic plates -- 4.3.3 Conclusions -- 4.4 A two-dimensional analysis of surface acoustic waves in finite piezoelectric plates -- 4.4.1 Surface acoustic waves in semi-infinite piezoelectric solids -- 4.4.2 Two-dimensional equations for finite piezoelectric elastic plates -- 4.4.3 Conclusions -- 4.5 Summary -- References -- Chapter 5 Wave Characteristics in the Functionally Graded Piezoelectric Waveguides: Legendre Polynomial Approach -- 5.1 Introduction -- 5.2 Wave propagation in the FGPM plate -- 5.2.1 Mathematics and formulation -- 5.2.2 Numerical results -- 5.3 Circumferential wave in the FGPM cylindrical curved plate -- 5.3.1 Mathematics and formulation -- 5.3.2 Numerical results and discussion -- 5.3.3 Brief summary -- 5.4 Axial wave in the FGPM hollow cylinders
5.4.1 Mathematics and formulation -- 5.4.2 Numerical results and discussion -- 5.4.3 Brief summary -- 5.5 Wave propagation in FGPM spherical curved plates -- 5.5.1 Mathematics and formulation -- 5.5.2 Numerical results and discussion -- 5.6 Summary -- References -- Chapter 6 Radial Vibration Analysis of Layered Piezoelectric Cylindrical and Spherical Structures as Sensors and Actuators -- 6.1 Introduction -- 6.2 Basic equations for piezoelectric media -- 6.2.1 Basic equations for three-dimensional problems -- 6.2.2 Basic equations for radial motion -- 6.3 Layered model and solution -- 6.3.1 Layered model and governing equations -- 6.3.2 The method of superposition -- 6.3.3 The quasi-static part -- 6.3.4 The dynamic solution -- 6.4 Numerical results and analysis -- 6.5 Summary -- References -- Appendix -- Chapter 7 One Type of Transverse Surface Waves in Piezoelectric Layered Solids for Electro-acoustic Devices -- 7.1 Introduction -- 7.2 Transverse surface waves in piezoelectric layered solids -- 7.2.1 Piezoelectric layer and metal/dielectric substrate -- 7.2.2 Piezoelectric layered solids with a hard metal interlayer -- 7.3 Transverse surface waves in prestressed piezoelectric layered solids -- 7.4 Transverse surface waves in graded piezoelectric layered solids -- 7.4.1 Functionally graded covering layer -- 7.4.2 Functionally graded substrate -- 7.5 Summary -- References -- Chapter 8 Theoretical Investigation of Force-frequency and Electroelastic Effects of Thickness Mode Langasite Resonators -- 8.1 Introduction -- 8.2 Perturbation integral for resonator frequency shift calculations -- 8.3 Force-frequency effect of thickness mode langasite resonators -- 8.3.1 Background -- 8.3.2 Perturbation theory -- 8.3.3 Unperturbed mode -- 8.3.4 Diametrical force -- 8.3.5 Results -- 8.3.6 Conclusions
8.4 Electroelastic effect of thickness mode langasite resonators -- 8.4.1 Introduction -- 8.4.2 Unperturbed modes -- 8.4.3 Biasing electric field -- 8.4.4 Results -- 8.4.5 Conclusions -- References -- Chapter 9 Wave Propagation in a Piezoelectric Plate with Surface Effect -- 9.1 Introduction -- 9.2 Isotropic elastic material surface -- 9.3 Surface piezoelectricity -- 9.4 Waves in a piezoelectric plate with surface effect -- 9.4.1 Decomposition -- 9.4.2 Two independent classes of motion -- 9.4.3 Love type or SH waves -- 9.4.4 Rayleigh-Lamb type waves -- 9.5 Summary -- References
This edited work covers piezoelectric materials in the form of beams, plates, shells, and other structural components in modern devices and structures. Applications are frequency control and detection functions in resonators, sensors, actuators, oscillations, and other smart and intelligent structures. The contributions cover novel methods for the analysis of piezoelectric structures including wave propagation, high frequency vibration, material characterization, and optimization of structures. Understanding of these methods is increasingly important in the design and modelling of next generation devices and micro-structures with piezoelectric elements and effects
Description based on publisher supplied metadata and other sources
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2020. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries
Link Print version: Fang, Daining Analysis of Piezoelectric Structures and Devices Berlin/Boston : De Gruyter, Inc.,c2013 9783110297881
Subject Piezoelectric devices.;Piezoelectricity
Electronic books
Alt Author Wang, Ji
Chen, Weiqiu
Staff, Higher Education Press
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