Study of the magnetic and magnetocaloric properties at low-field in Nd2[formula omitted][formula omitted] intermetallics

Abstract

Magnetic refrigeration could ultimately allow the replacement of commonly-used industrial coolers or household refrigerators, mainly for its potential great efficiency and ecological factors.In the search of good magnetocaloric materials, the iron rich Nd2Fe17 intermetallics are regarded as very interesting candidates, due to their significant magnetic properties. To that end, three samples with nominal compositions Nd2Fe17-xSix (x=0,0.25,0.5) were prepared by using an arc furnace, followed by annealing. Structural analysis by Rietveld method on X-ray diffractograms have shown that these alloys crystallize in the rhombohedral Th2Zn17-type structure (Space group R3¯m) and that Fe is being substituted by Si in the 18h Wyckoff position.Magnetic properties measurements revealed that the Curie temperature increases while the magnetization at saturation diminishes with Si content. The magnetic entropy change ΔSM reached a maximum of 3.35 J/kg.K, 2.77 J/kg K and 2.50 J/kg K for an applied field of 1.5 T for x = 0, 0.25 and 0.5 respectively, pointing to a decrease with Si content. The RCP seems however to receive an extensive boost from the Fe to Si substitution. Mössbauer spectra analysis was also performed, in order to confirm the site 18h as the location of Si atoms in Nd2Fe17-xSix and the magnetization at saturation.