Superconducting Permanent Magnets

Abstract

The concept of superconducting 'permanent' magnets or Super-Permanent magnets, with fields trapped in shells or cylinders of type II superconductors is an old one. Unfortunately, the low values of 0.5 to 1T for the first flux jump field, which is independent of the actual current density, have frustrated its implementation with the classical Type II superconductors. The fact that the flux jump fields for high temperature superconductors should be almost an order of magnitude larger at liquid nitrogen temperatures, allows us to reconsider these options. Analysis of the hysteresis patterns, based on the critical state model, shows that, if the dimensions are chosen so that the value of the first flux jump field Bfj at the given operating temperature, a temporarily applied field of 2Bfj will trap 0.5 Bfj. Thus for a Bfj of 6T, a permanent field of 3T should be trapped with an energy product of 1.8MJ/cu m (225 MGOe). This is five times as large as for the best permanent magnet materials. We discuss means to verify the analysis and the limitations imposed by the low critical current densities in presently available high temperature superconductors.

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Document Details

Document Type
Technical Report
Publication Date
Mar 01, 1990
Accession Number
ADA218944

Entities

People

  • Henry L. Laquer
  • Stefan L. Wipf

Tags

Communities of Interest

  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Coercivity
  • Curie Temperature
  • Current Density
  • Determinants (Mathematics)
  • Heat Capacity
  • High Temperature
  • High Temperature Superconductors
  • Magnetic Fields
  • Magnetic Induction
  • Magnetic Materials
  • Magnetization
  • Magnets
  • Materials
  • Permanent Magnets
  • Physical Properties
  • Specific Heat
  • Superconductors

Fields of Study

  • Physics

Readers

  • Superconducting Magnet Technology
  • Systems Analysis and Design