Structural, magnetic, and magnetocaloric properties of (Hf0.83Ta0.17)Fe2+x materials

15 April 1996

journal article
Published by AIP Publishing in Journal of Applied Physics

Vol. 79 (8) , 5998-6000
https://doi.org/10.1063/1.362133

Abstract

We have investigated the sensitivity of structural, magnetic, and magnetocaloric properties of (Hf_0.83Ta_0.17)Fe_2+x alloys (x=−0.18, −0.09, −0.02, 0.00, 0.09, 0.26) to Fe content. As‐cast samples for all x consist essentially exclusively of hexagonal MgZn₂‐type material. Via magnetization and differential scanning calorimetry measurements we find that all the alloys except x=0.26 feature both a ferromagnetic→antiferromagnetic (FM→AFM) transition at temperature T₀ and a Néel transition. The most abrupt FM→AFM transition occurs in the x=−0.02 material which also exhibits the lowest T₀ and largest low‐temperature moment. We report a magnetocaloric property, the field‐induced entropy change ΔS, for the x=0.00 and x=±0.09 alloys.

This publication has 6 references indexed in Scilit:

Magnetic and magnetocaloric properties of melt-spun GdxAg100−x alloys
Journal of Applied Physics, 1994
Thermal and transport properties of ${Hf}_{1 - x}$ ${Ta}_{x}$ ${Fe}_{2}$
Physical Review B, 1993
Alloys of the FeRh system as a new class of working material for magnetic refrigerators
Cryogenics, 1992
Magnetic Phase Transitions in Itinerant Electron Magnets Hf_1-xTa_xFe₂
Journal of the Physics Society Japan, 1983
Ferromagnetic to Antiferromagnetic Transition in Hf_0.8Ta_0.2Fe₂
Journal of the Physics Society Japan, 1982
Pressure-induced antiferromagnetism in ferromagnetic Fe51.5Rh48.5 alloy
Journal of Magnetism and Magnetic Materials, 1981