Title :
Computation of NdFeB-Halbach Cylinders With Circular and Elliptical Cross Sections in Three Dimensions
Abstract :
This paper reports a study of the influence of magnetization directions and ellipticity on the field strength and homogeneity of NdFeB-Halbach cylinders in three dimensions. For the calculations the author used the RADIA software package, which allows fast and accurate 3-D magnetostatic computations due to its semianalytical approach. Parameter variations were performed to find the magnetization angles and cylinder ellipticity which yield a maximum field at the center gap point or which result in maximum field homogeneity. By optimizing magnetization angles and ellipticity, the field strength and field homogeneity of a Halbach cylinder can be shaped and maximized without adding any additional magnetic material.
Keywords :
boron alloys; iron alloys; magnetic materials; magnetic moments; magnetisation; magnetostatics; neodymium alloys; 3D magnetostatic computations; Halbach cylinders; NdFeB; RADIA software package; circular cross sections; elliptical cross sections; magnetic material; magnetization angles; magnetization directions; Engine cylinders; Magnetic flux; Magnetic materials; Magnetic sensors; Magnetization; Magnetostatics; Nuclear magnetic resonance; Permanent magnets; Sensor arrays; Software packages; Elliptical Halbach cylinder; homogene fields; magnetic dipoles; permanent magnets; semianalytic calculations;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2010.2048432
