Hysteresis of magnetic force-gap in static and dynamic magnetic levitation with a high-Tc superconductor

Issue		Eur. Phys. J. Appl. Phys. Volume 44, Number 2, November 2008


Page(s)		163 - 169
Section		Magnetism, Superconductivity and Related Devices
DOI		10.1051/epjap:2008163
Published online		04 October 2008

Eur. Phys. J. Appl. Phys. 44, 163-169 (2008)
DOI: 10.1051/epjap:2008163

Hysteresis of magnetic force-gap in static and dynamic magnetic levitation with a high-T_c superconductor

X.-F. Gou¹ and Z.-X. Zhang²

¹ Department of Engineering Mechanics, Hohai University, 210098 Nanjing, P.R. China
² Department of Engineering Mechanics, College of Science, Jiangsu University, 212013 Zhenjiang, P.R. China

xfgou@hhu.edu.cn

Received: 23 April 2008 / Received in final form: 27 June 2008 / Accepted: 24 July 2008 / Published online: 4 October 2008

Abstract
Hysteresis behavior of magnetic force versus gap between a high-T_c superconductor and a magnet, in static and dynamic cases, is studied numerically. Differing from the previous methods, based on macro electromagnetic constitutive relation of superconductors and Maxwell equations, a numerical method with the finite element method (FEM) is established. After numerical code is examined by comparing between numerical and experimental results of the relation of magnetic force-gap, the hysteresis curves of magnetic force-gap including major and minor loops in static case are simulated, and furthermore the dependences of major loop on main parameters including the critical current density and the thickness of superconductor, the residual magnetic field of magnet, and the diameter ratio of superconductor to magnet are studied numerically. In the case of free vibration, by investigating dynamic response of levitated body at different levitation/suspension positions in this magnetic levitation system, we obtain the corresponding results of the variation of magnetic force with gap. All the numerical results of the relation between magnetic force and gap show the strongly nonlinear and highly hysteretic behavior.

PACS
74.72.Bk - Y-based cuprates.
74.81.Bd - Granular, melt-textured, amorphous, and composite superconductors.

© EDP Sciences 2008

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