Effect of alloying elements (Zr, Hf, Co), heat and mechanical treatment conditions on the phase composition and magnetic properties of SmFe11Ti compounds with ThMn12 structure

The results of thermomagnetic, metallographic and X-ray diffraction phase analysis as well as the measurements of specific magnetization (sigma(s)), Curie temperature (T-C), coercive force (H-C) of (Sm, M)(Fe, M)(12-x)Ti-x alloys samples, where M = Zr, Hf, Co with the ThMn12 main phase structure (1-12) are presented. The effect of the annealing temperature and the cooling rate on the formation of 1-12 phase and its magnetic properties, including the effect of high-energy milling on the magnetic hysteresis properties and alloys structure are described. It was found that the highest magnetic characteristics such as sigma(s) = 112.6 emu/g and TC = 600 degrees C are attained in the (Sm0.8Zr0.2)(Fe0.75Co0.25)(11.4)Ti-0.6 alloy after its annealing at 1050 degrees C and rapid cooling. It is noted that a mechanical milling of the alloy leads to 1-12 phase amorphization which accompanied by an alpha-(Fe) or metal Co phases impurity formation.