Description |
1 online resource (169 pages) : illustrations |
Series |
Nanotechnology science and technology series |
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Nanotechnology science and technology series.
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Contents |
MAGNETIC PROPERTIESAND APPLICATIONSOF FERROMAGNETIC MICROWIRESWITH AMORPHOUSAND NANOCRYSTALLINESTRUCTURE; MAGNETIC PROPERTIES AND APPLICATIONS OF FERROMAGNETIC MICROWIRES WITH AMORPHOUS AND NANOCRYSTALLINE STRUCTURE ; CONTENTS; PREFACE; ACKNOWLEDGMENTS; INTRODUCTION; FABRICATION METHOD; 2.1. CHEMICAL AND METALLURGICAL PROCESSES RELATED WITHINTERACTION OF THE INGOT ALLOY AND THE GLASS; 2.2. ELECTROMAGNETIC AND ELECTRO-HYDRODYNAMICPHENOMENA IN THE SYSTEM OF INDUCTOR- INGOT; 2.3. THERMAL CONDITIONS OF FORMATION OF CAST MICROWIRE; 2.4. PARAMETERS OF THE CASTING PROCESS AND THEIR LIMITS |
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2.4.1. Casting Rate2.4.2. Diameter of a Microwire; 2.4.3. Composition of the Metal Core; 2.5. MICROSTRUCTURE OF CAST MICROWIRES; 2.5.1. Cooling Rate of the Metal Core; 2.5.2. Metastable Phases in Cast Microwire; MECHANICAL PROPERTIES; AMORPHOUS MICROWIRESAND THEIR MAGNETIC PROPERTIES; INTRODUCTIONSOFT MAGNETIC MATERIALS; Magnetic Properties; Permeability; Coercivity; Saturation Magnetization; Barkhausen Effect; 4.1. EFFECT OF COMPOSITION. PROPERTIES RELEVANTFOR APPLICATIONS; 4.2. MAGNETIC BISTABILITY. SWITCHING FIELD FLUCTUATIONS. FAST DOMAIN WALL PROPAGATION |
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4.2.1. Switching Filed Fluctuations4.2.2. The Temperature Dependence of the Switching Field; 4.2.3. Domain Walls Propagation; 4.3. GIANT MAGNETO-IMPEDANCE EFFECTAND ENHANCED MAGNETIC SOFTNESS. TAILORINGOF MAGNETIC PROPERTIES AND GMI; 4.3.1. Magnetostriction; 4.3.2. GMI Effect in Different Families of Wires; 4.3.3. Tailoring of Hysteretic Properties and GMI Effect in Thin GlasscoatedMicrowires Using Heat Treatment. Induce Magnetic Anisotropy. Stress Sensitive Microwires; 4.3.4. Tailoring of the GMI Effect; 4.3.5. Development of Extremely Thin Microwires with GMI Effect. Off-diagonal GMI |
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4.3.6. Development of Temperature Sensitive Microwires with GMI Effect4.4. OTHER WAYS OF TAILORING OF MAGNETIC PROPERTIES; 4.4.1. Interaction between Microwires; 4.4.2. Multi-layered Microwires; 4.4.3. Microwires with Mixed Structure; 4.5. EFFECT OF PARTIAL CRYSTALLIZATIONAND NANOCRYSTALLIZATION; 4.5.1. Nanocrystalline Fe-Cu-Nb-Si-B Glass-coated Microwires; 4.5.1.1 Magnetically Soft Nanocrystalline Microwires; 4.5.1.2. Semihard Magnetic Nanocrystalline Microwires; 4.5.2. Nanocrystalline Structure in FeHfBSi Glass-coated Microwire; NON -MAGNETICALLY SOFT MICROWIRES |
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5.1. MICROWIRES WITH GRANULAR STRUCTURE. MAGNETO-RESISTANCE EFFECT5.2. MAGNETO-CALORIC EFFECT IN GLASS-COATED MICROWIRES; FREQUENCY DEPENDENCE OF COERCIVITY. EFFECT OF MAGNETIC STRUCTURE; APPLICATIONS; REFERENCES; INDEX |
Bibliography |
Includes bibliographical references (pages 153-162) and index |
Notes |
Print version record |
Subject |
Amorphous substances -- Magnetic properties.
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Ferromagnetic materials.
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Nanocrystals.
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SCIENCE -- Nanostructures.
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Amorphous substances -- Magnetic properties
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Ferromagnetic materials
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Nanocrystals
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Form |
Electronic book
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Author |
Zhukova, Valentina, 1962-
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ISBN |
9781612098876 |
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1612098878 |
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