A. M. Aliev, A. B. Batdalov, L. N. Khanov, A. V. Mashirov, E. T. Dilmieva, V. V. Koledov, V. G. Shavrov, “Degradation of the magnetocaloric effect in Ni$_{49.3}$Mn$_{40.4}$In$_{10.3}$ in a cyclic magnetic field”, Fizika Tverdogo Tela, 2020, Volume 62, Issue 5,Pages 748

This article is cited in 15 papers

International conference ''Phase transitions, critical and nonlinear phenomena in condensed matter'', Makhachkala, September 15-20, 2019
Magnetism

Degradation of the magnetocaloric effect in Ni$_{49.3}$Mn$_{40.4}$In$_{10.3}$ in a cyclic magnetic field

A. M. Aliev^a, A. B. Batdalov^a, L. N. Khanov^a, A. V. Mashirov^b, E. T. Dilmieva^b, V. V. Koledov^b, V. G. Shavrov^b

^a Daghestan Institute of Physics after Amirkhanov, Makhachkala, Russia
^b Kotel'nikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Moscow

Abstract: The direct measurements of the magnetocaloric effect $\Delta T_{\operatorname{ad}}$ in the Heusler alloy Ni$_{49.3}$Mn$_{40.4}$In$_{10.3}$ have been carried out in cyclic magnetic fields with amplitudes to 8 T. The maximum values of the magnetocaloric effect are 5.29 K in the martensite–austenite transition region and 3.39 K in the region of the magnetic phase transition in the austenite phase. A long-term action of a cyclic magnetic field is shown to lead to a marked decrease in the value of the magnetocaloric effect in the region of the magnetostructural martensite–austenite transition. The initial properties are recovered after the complete transition of the sample to the austenite phase. The phenomenon observed in this study restricts the application of these materials in the magnetic cooling technology.

Keywords: magnetocaloric effect, Heusler alloys, cyclic magnetic fields, degradation, cooling technology.

Received: 30.12.2019
Revised: 30.12.2019
Accepted: 10.01.2020

DOI: 10.21883/FTT.2020.05.49238.01M