Glass forming ability, magnetic properties and cryogenic magnetocaloric effects in RE60Co20Al20 (RE = Ho, Er, Tm) amorphous ribbons

The rare-earths (RE) based amorphous materials with large magnetocaloric (MC) effects and excellent glass forming ability (GFA) have been recognized as promising candidates for magnetic refrigeration (MR). In this work, the RE60Co20Al20 (RE = Ho, Er, Tm) amorphous ribbons were successfully fabricated and systematically determined with respect to the GFA, magnetic properties and MC effects. A second order magnetic phase transition (MPT) from ferromagnetic to paramagnetic (FM to PM) without noticeable field or thermal hysteresis has been observed around the Curie temperatures, T-c similar to 22.3 K for Ho60Co20Al20, similar to 10.3 K for Er60Co20Al20, and similar to 5.0 K for Tm60Co20Al20, respectively. The MC parameters including the maximum magnetic entropy change (vertical bar Delta S-M(max)vertical bar), temperature-averaged entropy change with 3 K lift [TEC (3 K)], and relative cooling powder refrigerant capacity (RCP/RC) have been determined to check the MC performances, and the corresponding values are determined to be 14.16, 15.57 and 15.06 J/kgK, to be14.04, 15.38 and 14.78 J/kgK, and to be 625.0/478.7, 505.7/391.8 and 334.0/243.4 J/kg for Ho60Co20Al20, Er60Co20Al20 and Tm60Co20Al20 under the field change Delta mu H-0 = 5 T, respectively. The present results indicate that RE60Co20Al20 (RE = Ho, Er, Tm) amorphous ribbons are considerable for cryogenic MR application. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

The amorphous ribbons of RE60Co20Al20 (RE = Ho, Er, Tm) were fabricated and characterized for their magnetic properties and magnetocaloric effects. The results suggest that these materials are promising for cryogenic magnetic refrigeration applications.