Vibrations of linear piezostructures / Andrew J Kurdila and Pablo A. Tarazaga.
Material type: TextSeries: Wiley-ASME Press seriesPublisher: ©2021Edition: First editionDescription: xxi, 234 pages : illustrations ; 24 cmContent type:- text
- unmediated
- volume
- 9781119393405 (hardback)
- QC595 KUR
Item type | Current library | Collection | Call number | Copy number | Status | Date due | Barcode | |
---|---|---|---|---|---|---|---|---|
Books | GSU Library Epoch General Stacks | NFIC | QC595 KUR (Browse shelf(Opens below)) | 1 | Available | 50000006130 |
Browsing GSU Library Epoch shelves, Shelving location: General Stacks Close shelf browser (Hides shelf browser)
QC231PAI The physics of vibrations and waves / | QC355.3 GIL Physics in the arts / | QC448AGR Nonlinear fiber optics / | QC595 KUR Vibrations of linear piezostructures / | QC661POL Electromagnetic surface waves : a modern perspective / | QC793.5HAW Advances in imaging and electron physics : Volume 201 / | QC793.5HAW Advances in imaging and electron physics : Volume 201 / |
Includes bibliographical references and index.
"Vibrations of Linear Piezostructures is a self-contained and introductory text providing a focused and concise account of the general theory of vibrations of linear piezostructures. While piezoelectric materials and sensors have been studied for decades, a person seeking a general introduction to the theory for modeling and analysis of this emerging class of sensors, actuators, and active systems currently must assimilate approaches from older outdated texts, journal or conference articles, edited volumes, highly specialized texts, or manuscripts that primarily treat other topics such as crystallography, tensor mathematics, continuum mechanics, or continuum electrodynamics. The book deals with the fundamental principals, starting with a review of mathematics, continuum mechanics and elasticity, and continuum electrodynamics as they are applied to electromechanical piezostructures. It continues by developing the work related to linear constitutive laws of piezoelectricity. Following this, it addresses modeling of linear piezostructures via Newton's approach and consequently via Variational Methods. And in the end it presents a general discussion of weak and strong forms of the equations of motion, Galerkin approximation methods for the weak form, Fouier or modal methods, and finite element methods."-- Provided by publisher.
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