Electromagneto-thermo-mechanical behaviors of conductive circular plate subject to time-dependent magnetic fields

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This paper presents an analysis on electromagneto-thermo-mechanical behaviors of conductive plates, an analytical solution is given for a conductive circular plate in a time-dependent magnetic field by using a T-method of the eddy current which is widely used in the eddy current analysis of conductive and superconductive structures. The solution is expressed in an analytical series form and it is suitable for a circular plate under any arbitrary axisymmetric magnetic fields changing in time. Some interesting results including the eddy current, the increment of temperature, and the electromagneto-thermal stresses are investigated, respectively, in this paper. Some characteristics such as the distribution of temperatures, the in-plane electromagnetic stresses and the dynamic response of the conductive plate are first studied and displayed. This study not only reveals some characteristics on the eddy current, the temperature of the plate, the in-plane electromagnetic thermal stresses and the dynamic responses of the conductive plate which is in a time-dependent magnetic field, but presents a new possible way to simplify the analysis of the electromagnetic coupling problem for conductive structures.
Publisher
SPRINGER WIEN
Issue Date
2010-02
Language
English
Article Type
Article
Keywords

FINITE-ELEMENT ANALYSIS; DYNAMIC STABILITY; CYLINDER; STRESS; PERTURBATION; DEFLECTION; VECTOR; BEAM

Citation

ACTA MECHANICA, v.210, no.1-2, pp.99 - 116

ISSN
0001-5970
DOI
10.1007/s00707-009-0196-x
URI
http://hdl.handle.net/10203/100424
Appears in Collection
ME-Journal Papers(저널논문)
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