Magnetocaloric effect of Fe64Mn15−xCoxSi10B11 amorphous alloys

The magnetocaloric effect (MCE) of melt-spun Fe64Mn15−xCoxSi10B11 amorphous alloys with x = 0, 0.2, 0.5, 0.7, and 1.0 was evaluated with the aim of maximizing the magnetic entropy change close to the room temperature. The peak magnetic entropy change, ΔSMpk for Fe64Mn15Si10B11 at 309 K at H = 15 kOe was limited to 0.82 J/kg K. The magnetic properties and ensuing MCE were very sensitive to the Co content that it is conjectured that with a smaller amount of Co addition the ΔSMpk can be optimized while maintaining the Curie temperature near room temperature. It was also shown that the Fe64Mn15−xCoxSi10B11 amorphous alloys obeyed the master curve behavior as the magnetic entropy change curve collapsed on to a single universal curve.

► Amorphous Fe64Mn15−xCoxSi10B11 (x = 0, 0.2, 0.5, 0.7, 1) ribbons were produced. ► Magnetocaloric effect was evaluated for the alloys. ► Peak magnetic entropy change of Fe64Mn15Si10B11 at 309 K at 15 kOe was 0.82 J/kg K. ► ΔSM for Fe64Mn15−xCoxSi10B11 obeyed the master curve behavior.