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200 10$aMagnetic properties and applications of ferromagnetic microwires with amorphous and nanocrystalline structure /$fArcady Zhukov and  Valentina Zhukova
205   $a1st ed.
210   $aNew York $cNova Science Publishers$dc2009
215   $a1 online resource (181 p.)
225 0 $aNanotechnology science and technology series
300   $aDescription based upon print version of record.
311 08$a1-60741-770-7 
320   $aIncludes bibliographical references and index.
327   $aIntro -- 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 -- 2.4.1. Casting Rate -- 2.4.2. 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 -- 4.2.1. Switching Filed Fluctuations -- 4.2.2. 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.
327   $a4.3.6. Development of Temperature Sensitive Microwires with GMI Effect -- 4.4. 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 -- 5.1. MICROWIRES WITH GRANULAR STRUCTURE.MAGNETO-RESISTANCE EFFECT -- 5.2. MAGNETO-CALORIC EFFECT IN GLASS-COATED MICROWIRES -- FREQUENCY DEPENDENCE OF COERCIVITY.EFFECT OF MAGNETIC STRUCTURE -- APPLICATIONS -- REFERENCES -- INDEX.
330   $aRecent advances in technology involving magnetic materials require development of novel advanced magnetic materials with improved magnetic and magneto-transport properties. Additionally the tendency on miniaturization of the modern magnetic sensors and devices stimulates development of such magnetic materials with reduced dimensionality. Certain progress has been recently achieved in fabrication of novel magnetic nano-materials (thin films, nanowires, nano-dots...), but at the same time quite sophisticated technology should be used but in many occasions the magnetic properties of these materials are rather poorer than such properties of bulk magnetic materials (amorphous ribbons, wires, sintered materials...) and the fabrication process is much more expansive and complex. On the other hand certain industrial sectors, like magnetic sensors, microelectronics, security etc, need cheap materials with reduced dimensionality but still with high magnetic properties (particularly enhanced magnetic softness). Therefore magnetic materials with outstanding magnetic characteristics and reduced dimensionality recently gained much attention.The aim of this book is to present the most relevant aspects concerning the fabrication process following by sections devoted to present significant results on the remagnetization process, compositional dependence and processing of glass-coated mirocwires with amorphous, nanocrystalline and granular character in order to design their magnetic properties.
410  0$aNanotechnology Science and Technology
606   $aAmorphous substances$xMagnetic properties
606   $aFerromagnetic materials
606   $aNanocrystals
615  0$aAmorphous substances$xMagnetic properties.
615  0$aFerromagnetic materials.
615  0$aNanocrystals.
676   $a620.1/1297
700   $aZhukov$b Arcady$f1963-$01866262
701   $aZhukova$b Valentina$f1962-$01866263
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910964439403321
996   $aMagnetic properties and applications of ferromagnetic microwires with amorphous and nanocrystalline structure$94473625
997   $aUNINA