Mechanics of electromagnetic material systems and structures
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Bibliographic Information
Mechanics of electromagnetic material systems and structures
WIT Press, c2003
Available at 5 libraries
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Note
Includes bibliographical references and indexes
Description and Table of Contents
Description
In recent years, the science of electro-magneto-mechanics has developed rapidly because of its possible extensive practical applications in fields such as smart material systems and structures, microelectromechanical systems (MEMS), bio-medical devices, superconducting devices, and magnetic fusion reactors. Detailing recent developments in this exciting interdisciplinary field, this volume features a selection of papers presented at the Symposium on Electro-Magneto-Mechanics that formed part of the 14th US National Congress of Theoretical and Applied Mechanics (USNCTAM 14). The contributions cover a varied range of subject areas and aspects from state-of-the-art fundamental research to applied research and applications in emerging technologies. They are divided under the following main headings: magnetoelasticity; piezoelectric fracture and damage mechanics; piezoelectric buckling, stability and vibration; and smart sensors and actuators.
Table of Contents
- Section 1 Magnetoelasticity : Nonlinear response of electroconducting elastic plates in a magnetic field
- Three-dimensional numerical simulation of ferromagnetic microstructures
- Finite element modelling and simulation of magnetostrictive materials
- Mechanics of cracked ferromagnetic plates in a magnetic field
- Constitutive modelling of magnetostrictive and soft ferromagnetic materials
- Propagation of spin waves in a periodic layered space
- Magnetoelastic vibrations and stability of ferromagnetic plates and shells. Section 2 Piezoelectric Fracture and Damage Mechanics: Electroelastic fracture mechanics of piezoelectric ceramics
- Experimental study of fatigue and fracture of piezoceramics
- Coupled electromechanical fracture of piezoelectric ceramics subjected to transient thermal loads
- An exact solution for doubly periodic cracks in piezoelectric materials under antiplane shear
- Application of path-independent integral to cracked piezoelectric materials
- Damage evolution equation of piezoelectric ceramics and its application to simplified analysis of crack growth
- On the nonlinear behaviour of interacting dielectric cracks in piezoelectric media
- Two-dimensional electromechanical analysis of piezoelectric ceramics
- On the energy release rate and the J-integral for a mode III insulating crack in a piezoelectric material. Section 3 Piezoelectric Buckling, Stability and Vibration: Enhancement of buckling capacity of column strips with piezoelectric layer
- Variational and differential equations for the dynamics of a coated piezolaminated composite bar
- Equations of high-frequency vibrations of porous piezoelectric plates
- Frequency stability of piezoelectric resonators
- Eigenvalue analysis for 2-D piezoelectric problems by the time-harmonic BEM. Section 4 Smart Sensors and Actuators: Control of transient deformation in a heated intelligent composite disk
- Ultrasonic imaging of structural damages using integrated sensor signals
- Active vibration suppression of a gossamer spacecraft
- Micro-actuators for structural control
- Multimodal vibration control by using piezoelectric transducers and passive circuits.
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