Preparation of highly coercive Sm-Fe-Ti by rapid quenching

Abstract

The magnetic properties of the hard magnetic 20:70:10 (ω) phase in melt‐spun Sm₂₀Fe_70+xTi_10−x (x=−2,0,2) and Sm₂₅Fe_65.6Ti_9.4 were investigated. The intrinsic coercivity _iH_c and the magnetization J were measured as a function of both the melt spinning parameters and various heat treatments. The maximum coercivities _iH_c at room temperature for the compositions Sm₂₀Fe₇₀Ti₁₀ and Sm₂₅Fe_65.6Ti_9.4 are 44.5 and 58 kOe, respectively. These values are among the highest reported so far for melt‐spun materials. The formation of Sm(Fe,Ti)₁₂ nuclei during rapid solidification is revealed by x‐ray diffraction, and its influence on the formation of the ω phase is discussed. By investigating the section Sm_x(Fe_0.875Ti_0.125)_100−x of the ternary phase diagram, using differential thermal analysis and x‐ray diffraction, we proved the ω phase to be metastable.