Ebook: Piezoelectric-Based Vibration Control: From Macro to Micro/Nano Scale Systems
Author: Nader Jalili (auth.)
- Genre: Physics // Mechanics: Oscillations and Waves
- Tags: Control Robotics Mechatronics, Vibration Dynamical Systems Control, Nanotechnology, Mechanical Engineering, Electronics and Microelectronics Instrumentation
- Year: 2010
- Publisher: Springer US
- Edition: 1
- Language: English
- pdf
Piezoelectric-Based Vibration Control: From Macro to Micro/Nano Scale Systems covers a comprehensive understanding and physical principles in piezoelectric materials and structures used in a variety of vibration-control systems. With its self-contained and single-source style, this book provides a widespread spectrum of discussions ranging from fundamental concepts of mechanical vibration analysis and control to piezoelectric actuators and sensors. Starting from an elementary level in mechanical vibrations, this book
- Offers the reader a detailed discussion of vibration of continuous systems as a single-source book,
- Provides actual actuator and sensor configurations, along with illustrative hands-on problems and examples that can be applied by the reader, and
- Covers advanced topics in piezoelectric-based micro/nano actuators and sensors with applications ranging from precision mechatronics to molecular recognition and functional nanostructures.
Piezoelectric-Based Vibration Control: From Macro to Micro/Nano Scale Systems, with its easy-to-follow format, is a must-read for all engineers working in the areas of vibration control and piezoelectric systems, undergraduate students interested in fundamental of vibrations and control, up to graduate students and researchers working on advanced piezoelectric-based vibration-control systems.
“Piezoelectric-Based Vibration-control Systems: Applications in Micro/Nano Sensors and Actuators” covers: Fundamental concepts in smart (active) materials including piezoelectric and piezoceramics, magnetostrictive, shape-memory materials, and electro/magneto-rheological fluids; Physical principles and constitutive models of piezoelectric materials; Piezoelectric sensors and actuators; Fundamental concepts in mechanical vibration analysis and control with emphasis on distributed-parameters and vibration-control systems; and Recent advances in piezoelectric-based microelectromechanical and nanoelectromechanical systems design and implementation.