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E-book
Author Bichurin, Mirza I., author

Title Magnetoelectric composites / Mirza I. Bichurin, Vladimir M. Petrov, Roman V. Petrov, Alexander S. Tatarenko
Published Singapore : Pan Staford Publishing, [2019]

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Description 1 online resource (1 volume)
Contents Cover; Half Title; Title Page; Copyright Page; Table of Contents; Foreword; Preface; 1: Modeling of Magnetoelectric Composites; 1.1 Low-Frequency Range; 1.1.1 Symmetric Layered Structures; 1.1.2 Bilayer Structure; 1.1.3 Examples of Multilayer Structures; 1.1.4 Bulk Composites; 1.1.5 Magnetoelectric Effects in Compositionally Graded Layered Structures; 1.1.6 Magnetoelectric Effect at Zero Bias Field; 1.1.7 Magnetoelectric Effect in Dimensionally Graded Laminate Composites; 1.1.8 Maxwell-Wagner Relaxation in ME Composites; 1.1.8.1 Layered composites; 1.1.8.2 Bulk composites
1.2 Electromechanical Resonance Range1.2.1 Longitudinal and Radial Modes; 1.2.2 Disc-Shaped Bilayer; 1.2.3 Bending Modes; 1.2.4 Shear Vibrations; 1.3 Ferromagnetic Resonance Range; 1.3.1 Bilayer Structure; 1.3.2 Basic Theory: Macroscopic Homogeneous Model; 1.3.3 Uniaxial Structure; 1.3.4 Layered Composite with Single-Crystal Components; 1.3.5 Electric Field-Induced Broadening of Magnetic Resonance Line; 1.3.6 Resonance Line Shift by Electric Signal with Electromechanical Resonance Frequency; 1.4 Magnetoacoustic Resonance Range; 1.4.1 Direct Magnetoelectric Effect
1.4.2 Effects of Exchange Interactions on Magnetoacoustic Resonance1.4.3 Electric Field-Induced Magnetic Excitations; 1.5 Nomograph Method for Predicting Magnetoelectric Coupling; 1.5.1 Low-Frequency Magnetoelectric Coupling; 1.5.2 Magnetoelectric Coupling at Bending Mode; 1.5.3 Magnetoelectric Coupling at Axial Mode; 1.5.4 Magnetoelectric Coupling in FMR Region; 1.6 Conclusions; 2: Applications of Magnetoelectric Composites; 2.1 ME Inductance; 2.1.1 Theoretical Model of the Device; 2.1.2 Comparison of Theoretical and Experimental Data; 2.2 ME Sensors; 2.2.1 Magnetic Field Sensor
2.2.1.1 Principle of operation2.2.1.2 Equivalent circuit; 2.2.1.3 Design; 2.2.1.4 Discussions; 2.2.2 Current Sensor; 2.2.2.1 Nonresonant current sensor; 2.2.2.2 Resonant current sensor; 2.2.3 Crankshaft Position Sensor; 2.2.3.1 Principle of operation; 2.2.3.2 Design; 2.2.3.3 Discussions; 2.3 ME Harvesters; 2.3.1 ME Elements Design; 2.3.2 Measurement Stand; 2.3.3 Measurement Data; 2.3.4 Theoretical Approach; 2.3.5 Generator; 2.3.5.1 Design; 2.3.5.2 Prototype of generator; 2.3.5.3 Measuring stand; 2.3.5.4 Characteristics of ME element; 2.3.5.5 Characteristics of generator
2.3.5.6 Configuration of the magnetic field generator2.3.5.7 Calculation of ME coefficient; 2.3.5.8 Outlook for increasing output power of the ME generator; 2.4 ME Microwave Resonators; 2.4.1 ME Microwave Devices; 2.4.2 Magnetoelectric Band-Pass Filter; 2.4.2.1 Characteristics; 2.4.2.2 Filter design; 2.4.2.3 Results; 2.4.3 Magnetoelectric Phase Shifter; 2.4.3.1 Experiment; 2.4.3.2 Results; 2.4.4 Magnetoelectric Microwave Isolator- Attenuator; 2.4.4.1 Results and discussion; 2.4.5 Modeling of ME Microwave Devices; 2.4.5.1 Results and discussion; 2.5 ME Gyrator; 2.5.1 Gyrator's Element Design
Summary This book is dedicated to modeling and application of magnetoelectric (ME) effects in layered and bulk composites based on magnetostrictive and piezoelectric materials. Currently, numerous theoretical and experimental studies on ME composites are available but few on the development and research of instruments based on them. So far, only investigation of ME magnetic field sensors has been cited in the existing literature. However, these studies have finally resulted in the creation of low-frequency ME magnetic field sensors with parameters substantially exceeding the characteristics of Hall sensors. The book presents the authors' many years of experience gained in ME composites and through creation of device models based on their studies. It describes low-frequency ME devices, such as current and position sensors and energy harvesters, and microwave ME devices, such as antennas, attenuators, filters, gyrators, and phase shifters
Bibliography Includes bibliographical references and index
Notes Mirza I. Bichurin is professor in and head of the Department of Design and Technology of Radioelectronic Equipment at Yaroslav-the-Wise Novgorod State University (NovSU), Russia
Online resource; title from digital title page (viewed on March 12, 2019)
Subject Composite materials -- Magnetic properties
Composite materials -- Electric properties.
Electromagnetism -- Measurement
TECHNOLOGY & ENGINEERING -- Engineering (General)
TECHNOLOGY & ENGINEERING -- Reference.
TECHNOLOGY -- Environmental Engineering & Technology.
Composite materials -- Electric properties.
Composite materials -- Magnetic properties.
Electromagnetism -- Measurement.
Form Electronic book
Author Petrov, Vladimir (Materials scientist), author.
Petrov, Roman V., author
Tatarenko, Alexander S., author
ISBN 9780429488672
042948867X
9780429949609
042994960X
9780429949616
0429949618
9780429949593
0429949596