Title :
Numerical investigation of the nonlinear penetration of pulsed electromagnetic fields into a ferromagnetic shield with a simple exponential permeability model
Author :
Croisant, William J. ; Feickert, Carl A. ; McInerney, M.K.
Author_Institution :
R&D Center, Constr. Eng. Res. Lab., Champaign, IL, USA
Abstract :
Electrically conductive ferromagnetic shielding materials exhibit nonlinear behavior (including magnetic saturation) under intense pulsed electromagnetic field conditions. This paper considers the fundamental problem of a long, thin-walled cylindrical electrically conductive ferromagnetic shield subjected to axially-directed, unipolar, short-duration surface current pulses. A simple idealized relative differential magnetic permeability model is used to portray the nonlinear effects of a field-dependent permeability, including saturation. The transient magnetic field intensity within the shield is investigated using finite difference time domain (FDTD) calculations.
Keywords :
electromagnetic fields; electromagnetic shielding; ferromagnetic materials; finite difference time-domain analysis; magnetic field measurement; permeability; FDTD calculation; axially-directed surface current pulse; differential magnetic permeability model; electrically conductive ferromagnetic shield; exponential permeability model; field-dependent permeability; finite difference time domain; nonlinear penetration; numerical investigation; pulsed electromagnetic field; short-duration surface current pulse; thin-walled cylindrical ferromagnetic shield; transient magnetic field intensity; unipolar surface current pulse; Conducting materials; EMP radiation effects; Electromagnetic fields; Electromagnetic modeling; Finite difference methods; Magnetic materials; Magnetic shielding; Permeability; Saturation magnetization; Thin wall structures;
Conference_Titel :
Electromagnetic Compatibility, 2003 IEEE International Symposium on
Print_ISBN :
0-7803-7835-0
DOI :
10.1109/ISEMC.2003.1236704
