Title :
Development of an open 0.3 T NdFeB MRI magnet
Author :
Jiang, Xiaohua ; Shen, Guanghui ; Lai, Yongchuan ; Tian, Jinfeng
Author_Institution :
Dept. of Electr. Eng., Tsinghua Univ., Beijing, China
fDate :
6/1/2004 12:00:00 AM
Abstract :
An open 0.3 T NdFeB whole-body MRI magnet was developed which has a wide-access configuration. In order to obtain a high uniformity of magnetic field, a two-dimensional (2D) axisymmetric hybrid boundary element method (BEM)-integral equation method (IEM) was firstly employed for the magnet design, emphasizing on the optimization of the shape of the iron pole plates. An asymmetric two-column iron yoke was then designed by use of the three-dimensional (3D) ANSYS code. Both designed and measured data of the magnet are presented. To reduce the effect of induced eddy currents in the pole plates by pulsed gradient fields, a couple of specially-designed steel sheets were fixed on the pole plates. Experimental data showed that the delay of the built-up of gradient fields was improved remarkably. By passive shimming, a field homogeneity of 26 ppm on a 30 cm DSV (diameter spherical volume) was finally obtained.
Keywords :
boron alloys; boundary-elements methods; eddy currents; electromagnetic induction; integral equations; iron alloys; magnetic resonance imaging; neodymium compounds; superconducting magnets; 0.3 T; ANSYS code; MRI magnet; NdFeB; boundary element method; field homogeneity; induced eddy currents; integral equation method; iron pole; iron yoke; magnet design; magnetic field uniformity; passive shimming; pulsed gradient fields; steel sheets; wide-access configuration; Boundary element methods; Design optimization; Eddy currents; Equations; Iron; Magnetic field measurement; Magnetic fields; Magnetic resonance imaging; Shape; Steel; Eddy currents; MRI magnets; NdFeB; field homogeneity; gradient fields; open configuration;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2004.831015
