Practical design of magnetostatic structure using numerical simulation /

Practical design of magnetostatic structure using numerical simulation /

"Covers extensively the magnet design and computation aspects from theories to practical applications, emphasizing design methods of practical structures such as superconducting, electromagnetic and permanent magnet for use in various scientific instruments, industrial processing, biomedicine a...

Πλήρης περιγραφή

Λεπτομέρειες βιβλιογραφικής εγγραφής
Κύριος συγγραφέας: Wang, Qiuliang
Μορφή: Ηλ. βιβλίο
Γλώσσα:English
Έκδοση: Singapore : Wiley, 2013.
Θέματα:
Superconductors > Magnetic properties.
Magnetic instruments > Design and construction > Mathematics.
Magnetic instruments > Mathematical models.
Superconducting magnets.
SCIENCE > Electromagnetism.
Electronic books.
Διαθέσιμο Online:Full Text via HEAL-Link
Πίνακας περιεχομένων:
  • ""Title Page
  • Copyright
  • Foreword
  • Preface
  • Chapter 1: Introduction to Magnet Technology
  • 1.1 Magnet Classification
  • 1.2 Scientific Discoveries in High Magnetic Field
  • 1.3 High Field Magnets for Applications
  • 1.4 Structure of Magnets
  • 1.5 Development Trends in High Field Magnets
  • 1.6 Numerical Methods for Magnet Design
  • 1.7 Summary
  • References
  • Chapter 2: Magnetostatic Equations for the Magnet Structure
  • 2.1 Basic Law of Macroscopic Electromagnetic Phenomena
  • 2.2 Mathematical Basis of Classical Electromagnetic Theory""
  • ""2.3 Equations of Magnetostatic Fields
  • 2.4 Summary
  • References
  • Chapter 3: Finite Element Analysis for the Magnetostatic Field
  • 3.1 Introduction
  • 3.2 Functional Construction for Static Magnetic Field
  • 3.3 Discretization and Interpolation Function of Solution Domain
  • 3.4 Formulation of System Equations
  • 3.5 Solution of System Equation for the FEM
  • 3.6 Applied FEM for Magnet Design
  • 3.7 Summary
  • References
  • Chapter 4: Integral Method for the Magnetostatic Field
  • 4.1 Integral Equation of Static Magnetic Field""
  • ""4.2 Magnetic Field from Current-Carrying Conductor
  • 4.3 Magnetic Field with Anisotropic Magnetization
  • 4.4 Case Studies of Complex Coil Structures
  • 4.5 Summary
  • References
  • Chapter 5: Numerical Methods for Solenoid Coil Design
  • 5.1 Magnet Materials and Performance
  • 5.2 Magnetic Field of the Superconducting Solenoid
  • 5.3 Design of Resistive Magnets
  • 5.4 Engineering Design for Superconducting Magnets
  • 5.5 Summary
  • References
  • Chapter 6: Series Analysis of Axially Symmetric Magnetic Field
  • 6.1 Laplace's Equation in Spherical Coordinates""
  • ""6.2 Series Expression of the Boundary-Value Problem
  • 6.3 Magnetic Induction of Helical Coils
  • 6.4 Magnetic Field of Multi-Coil Combination
  • 6.5 Applied Magnetic Field Series Expansion
  • 6.6 Summary
  • References
  • Chapter 7: High Field Magnet with High Homogeneity
  • 7.1 Definition of Magnetic Field Homogeneity
  • 7.2 Requirements for Magnets with High Homogeneity
  • 7.3 Design of High Homogeneity Magnet
  • 7.4 Design Example of High Homogeneity Magnet
  • 7.5 Design of High Field and High Homogeneity Magnet
  • 7.6 Engineering Designs and Applications""
  • ""7.7 Summary
  • References
  • Chapter 8: Permanent Magnets and their Applications
  • 8.1 Introduction to Magnetic Materials
  • 8.2 Classification and Characteristics of Permanent Magnets
  • 8.3 Permanent Magnet Structure Design
  • 8.4 Design of Magnet for Engineering Applications
  • 8.5 Summary
  • References
  • Chapter 9: Shimming Magnetic Field
  • 9.1 Magnetostatic Principle for Shimming Magnetic Field
  • 9.2 Design Method for Active Shimming Coil
  • 9.3 Current Calculation for Active Shim Coils
  • 9.4 Passive Shimming Design Method
  • 9.5 Summary
  • References""

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