Formation of Metastable TbFe₅Phase by Mechanical Alloying

Abstract

Bulk materials of TbFe₂ (giant magnetostrictive) and TbFe₃ were prepared by arc melting the constituent high pure elements under argon atmosphere. The two materials together were ball milled in toluene atmosphere for 70 h. The mixture is found to be predominantly amorphous after about 37 h of milling. The saturation–magnetization initially was found to increase and then found to decrease with milling time. The anisotropy of the material is seen to decrease as the milling time was increased, due to the formation of the amorphous phase. Differential scanning calorimetry (DSC) studies on the powders milled for 70 h showed two phase transitions, one at 90^circC and another one at 110^circC. Powder X-ray diffraction (XRD) of the annealed sample showed that a metastable phase formed at 90^circC and is found to be TbFe₅ phase and that the phase formed at 110circC was TbFe₃. The average particle size calculated using the Sherrer's formula is found to be 30 nm.