Title :
Magnetic properties of Nd2Fe14-xBexB
Author :
Li, Hong-Shuo ; Mohanty, R.C. ; Raman, A. ; Grenier, C.G. ; Cadogan, J.M.
Author_Institution :
Southern Res. Inst. of Pure & Appl. Sci., Southern Univ., Baton Rouge, LA, USA
fDate :
9/1/1997 12:00:00 AM
Abstract :
Be-substituted Nd2(Fe14-xBex)B compounds have been successfully prepared. The observed linear reduction of unit cell volume with Be substitution indicates that the Be atoms enter almost exclusively the Fe sites. Both the Curie temperature and magnetization are weakened upon Be substitution; the reduction in Tc is about 26 K/Be atom and the reduction in the average Fe moment is about 0.26 μB/Be atom, respectively. The fits to room temperature Mossbauer spectra of Nd2(Fe13Be)B give an average hyperfine field of 23.7 T. The room temperature anisotropy of Be substituted Nd2(Fe14-xBex )B compounds is around 8 T which is nearly unchanged, compared to the parent Nd2Fe14B compound. Moreover, the Be substitution leads to an increase in the canting angle at 10 K, from 28° to ~36°, and a decrease in the spin-reorientation temperature from 131 K to 123 K for Be0.5 and 112 K for Be 1.0 substitution, respectively. These effects indicate a weakened A20 value and/or an enhanced A40 value for Nd atoms
Keywords :
Curie temperature; Mossbauer effect; beryllium alloys; boron alloys; canted spin arrangements; ferromagnetic materials; hyperfine interactions; iron alloys; lattice constants; magnetic anisotropy; magnetisation; neodymium alloys; permanent magnets; 10 K; 112 K; 123 K; Be substitution effect; Curie temperature; Fe moment; Nd2Fe13BeB; Nd2Fe14-xBexB; Nd2Fe14B; Nd2Fe14Be0.5B0.5; canting angle; enhanced A40 value; hyperfine field; magnetization; room temperature Mossbauer spectrum; room temperature anisotropy; spin-reorientation temperature; unit cell volume; weakened A20 value; Anisotropic magnetoresistance; Boron; Carbon compounds; Iron; Magnetic field measurement; Magnetic properties; Neodymium; Powders; Saturation magnetization; Scanning electron microscopy;
Journal_Title :
Magnetics, IEEE Transactions on
