Handbook of magnetic materials

Summary

Titles

• Full Title: Handbook of magnetic materials/ edited by K.H.J. Buschow.

Series Statement

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Notes

• Title from home page (viewed 26 Oct., 2006).
• Includes bibliographical references and indexes.
• Cover; Contents; Preface to Volume 16; Contents of Volumes 1-15; List of Contributors; Giant Magnetostrictive Materials; Introduction; Magnetic shape memory effect; Selected active materials; Modelling the behaviour of MSM materials and the giant magnetic-field-induced strain (MFIS); Ni-Mn-Ga alloys; Martensitic and reverse phase transformations; Mechanical properties; Magnetic properties; Martensite variant rearrangement in an applied magnetic field; Effect of load on magnetic-field-induced strain (MFIS); Dynamical actuation and fatigue of MFIS; Temperature dependence of MFIS
• Selected properties of Ni-Mn-Ga alloysPromising MSM materials; Acknowledgements; References; Micromagnetic Simulation of Magnetic Materials; Introduction; Basic micromagnetism; Total Gibbs' energy; Exchange energy; Ferromagnet; Ferrimagnets and antiferromagnets; Antiferromagnetic ordering on a simple cubic lattice; Antiferromagnetic ordering on a body-centered cubic lattice; Antiferromagnetic ordering on an fcc lattice; Zeeman energy; Magnetocrystalline anisotropy energy; Magnetic field; Interface condition; Strayfield; Eddy current field; Static micromagnetism-Browns equation
• Dynamic micromagneticsMicromagnetism at finite temperature; Short time scales-stochastic dynamics; Long time scales-energy barriers; Numerical methods; Finite difference micromagnetism; Finite element micromagnetism; Numerical treatment of the stray field problem; Vector potential; Scalar potential; Hybrid FE/BE method; Finite element method-Galerkin approach; Eddy currents; Model; Fast integration methods; Fast Fourier transformation; Treecode; H-matrices-adaptive cross approximation; Time integration; Time discretization; Comparison of different time integration schemes
• Time integration at finite temperatureCalculating energy barriers; Micromagnetic codes; Applied micromagnetics; Perpendicular and tilted media for magnetic recording; Reversal modes; Energy barriers and thermally activated reversal modes; Switching times; Single domain particle; Granular media; Conclusions; Exchange spring media for perpendicular recording; Analytical model for single phase media; Numerical results for single phase media and exchange spring media; Conclusion; Integrated simulations of recording devices; Numerical background; Longitudinal recording; Perpendicular recording
• ConclusionAcknowledgement; References; Ferrofluids; Synthesis of magnetic fluids; Stability criteria; Magnetite ferrofluids; Ferrofluids containing metallic particles; Ferrofluids for biomedical applications; Basic properties of ferrofluids; Magnetic properties; Equilibrium magnetization; Relaxation of magnetization; Viscous properties; Basic description for the field dependent behaviour of ferrofluids; Basic ferrohydrodynamic equations; An overview on applications of magnetic fluids; Sealing applications; Ferrofluids for separation purposes; Ferrofluids for sensor applications
• English.
• Previous title: Ferromagnetic materials : a handbook on the properties of magnetically ordered substances.

Identifiers

• Isbns: 1280634022; 9781280634024; 9786610634026; 6610634025; 9780080459493; 0080459498
• Oclc Number: (OCoLC)225230972

Publication Statement

• Place: Amsterdam ; New York
• Publisher: Elsevier Science
• Date: 2006

Physical Description

• Extent: 1 online resource (xvi, 534 pages) :
• Illustrations: illustrations.

Table Of Contents

• Cover; Contents; Preface to Volume 16; Contents of Volumes 1-15; List of Contributors; Giant Magnetostrictive Materials; Introduction; Magnetic shape memory effect; Selected active materials; Modelling the behaviour of MSM materials and the giant magnetic-field-induced strain (MFIS); Ni-Mn-Ga alloys; Martensitic and reverse phase transformations; Mechanical properties; Magnetic properties; Martensite variant rearrangement in an applied magnetic field; Effect of load on magnetic-field-induced strain (MFIS); Dynamical actuation and fatigue of MFIS; Temperature dependence of MFIS
• Selected properties of Ni-Mn-Ga alloysPromising MSM materials; Acknowledgements; References; Micromagnetic Simulation of Magnetic Materials; Introduction; Basic micromagnetism; Total Gibbs' energy; Exchange energy; Ferromagnet; Ferrimagnets and antiferromagnets; Antiferromagnetic ordering on a simple cubic lattice; Antiferromagnetic ordering on a body-centered cubic lattice; Antiferromagnetic ordering on an fcc lattice; Zeeman energy; Magnetocrystalline anisotropy energy; Magnetic field; Interface condition; Strayfield; Eddy current field; Static micromagnetism-Browns equation
• Dynamic micromagneticsMicromagnetism at finite temperature; Short time scales-stochastic dynamics; Long time scales-energy barriers; Numerical methods; Finite difference micromagnetism; Finite element micromagnetism; Numerical treatment of the stray field problem; Vector potential; Scalar potential; Hybrid FE/BE method; Finite element method-Galerkin approach; Eddy currents; Model; Fast integration methods; Fast Fourier transformation; Treecode; H-matrices-adaptive cross approximation; Time integration; Time discretization; Comparison of different time integration schemes
• Time integration at finite temperatureCalculating energy barriers; Micromagnetic codes; Applied micromagnetics; Perpendicular and tilted media for magnetic recording; Reversal modes; Energy barriers and thermally activated reversal modes; Switching times; Single domain particle; Granular media; Conclusions; Exchange spring media for perpendicular recording; Analytical model for single phase media; Numerical results for single phase media and exchange spring media; Conclusion; Integrated simulations of recording devices; Numerical background; Longitudinal recording; Perpendicular recording
• ConclusionAcknowledgement; References; Ferrofluids; Synthesis of magnetic fluids; Stability criteria; Magnetite ferrofluids; Ferrofluids containing metallic particles; Ferrofluids for biomedical applications; Basic properties of ferrofluids; Magnetic properties; Equilibrium magnetization; Relaxation of magnetization; Viscous properties; Basic description for the field dependent behaviour of ferrofluids; Basic ferrohydrodynamic equations; An overview on applications of magnetic fluids; Sealing applications; Ferrofluids for separation purposes; Ferrofluids for sensor applications

Summary

• Volume 16 of the Handbook on the Properties of Magnetic Materials, as the preceding volumes, has a dual purpose. As a textbook it is intended to be of assistance to those who wish to be introduced to a given topic in the field of magnetism without the need to read the vast amount of literature published. As a work of reference it is intended for scientists active in magnetism research. To this dual purpose, Volume 16 of the Handbook is composed of topical review articles written by leading authorities. In each of these articles an extensive description is given in graphical as well as in tabul.

Subjects

Writers