S. V. Taskaev, V. V. Khovailo, K. P. Skokov, W. Liu, E. Bykov, M. N. Ulyanov, D. Bataev, A. A. Basharova, M. V. Kononova, D. V. Plakhotskiy, M. Yu. Bogush, M. A. Gavrilova, T. Gottschall, Z. Hu, “Magnetocaloric effect in polycrystalline DyAl${}_2$”, Chelyab. Fiz.-Mat. Zh., 5:4(2) (2020), 618

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Chelyabinskiy Fiziko-Matematicheskiy Zhurnal, 2020, Volume 5, Issue 4(2), Pages 618–626
DOI: https://doi.org/10.47475/2500-0101-2020-15421 (Mi chfmj217)

This article is cited in 1 scientific paper (total in 1 paper)

Magnetocaloric Effect in Functional Materials

Magnetocaloric effect in polycrystalline DyAl${}_2$

S. V. Taskaev^abc, V. V. Khovailo^bc, K. P. Skokov^d, W. Liu^d, E. Bykov^de, M. N. Ulyanov^af, D. Bataev^a, A. A. Basharova^a, M. V. Kononova^ab, D. V. Plakhotskiy^a, M. Yu. Bogush^a, M. A. Gavrilova^a, T. Gottschall^e, Z. Hu^g

^a Chelyabinsk State University, Chelyabinsk Russia
^b National University of Science and Technology «MISIS», Moscow, Russia
^c South Ural State University (National Research University), Chelyabinsk, Russia
^d Technische Universität Darmstadt, Darmstadt, Germany
^e Helmholtz-Zentrum Dresden-Rosendorf, Dresden, Germany
^f Immanuel Kant Baltic Federal University, Kaliningrad, Russia
^g University of Science and Technology of Beijing, Beijing, P. R. China

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DOI: https://doi.org/10.47475/2500-0101-2020-15421

Abstract: In recent years, natural gas has acquired an increasing geopolitical importance as a source of energy transported over long distances for consumption in many different sectors of the economy. However, modern technologies for the liquefaction of hydrocarbons are very complex and expensive. Taking into account the significant progress in the field of modern superconducting magnetic field sources, magnetic cooling is becoming an alternative to traditional vapor-gas cooling. In the cryogenic temperature range, the Laves phases are among the most effective materials with a magnetocaloric effect. This article is devoted to the study of the magnetocaloric effect in magnetic fields up to 3 T in DyAl$_2$. In these magnetic field the change of the magnetic entropy in this intermetallic compound is $\Delta S_m$ = -9.26 J/(kg$\cdot$K) and is achieved near the Curie temperature $T_C$ = 55 K.

Keywords: magnetocaloric effect, magnetic cooling, Laves phase, natural gas liquefaction, ferromagnet.

Funding agency	Grant number
Russian Science Foundation	18-42-06201
Helmholtz-Association	HRSF-0045
This work was carried out with the financial support of the Russian Science Foundation grant No. 18-42-06201. W.L., E.B. and T.G. thank the Helmholtz Association via the Helmholtz-RSF Joint Research Group with Project No. HRSF-0045 and the HLD at HZDR, a member of the European Magnetic Field Laboratory (EMFL).

Received: 01.10.2020
Revised: 15.10.2020

Document Type: Article

UDC: 537.638.5

Language: English

Citation: S. V. Taskaev, V. V. Khovailo, K. P. Skokov, W. Liu, E. Bykov, M. N. Ulyanov, D. Bataev, A. A. Basharova, M. V. Kononova, D. V. Plakhotskiy, M. Yu. Bogush, M. A. Gavrilova, T. Gottschall, Z. Hu, “Magnetocaloric effect in polycrystalline DyAl${}_2$”, Chelyab. Fiz.-Mat. Zh., 5:4(2) (2020), 618–626

Citation in format AMSBIB

\Bibitem{TasKhoSko20}

\by S.~V.~Taskaev, V.~V.~Khovailo, K.~P.~Skokov, W.~Liu, E.~Bykov, M.~N.~Ulyanov, D.~Bataev, A.~A.~Basharova, M.~V.~Kononova, D.~V.~Plakhotskiy, M.~Yu.~Bogush, M.~A.~Gavrilova, T.~Gottschall, Z.~Hu

\paper Magnetocaloric effect

in polycrystalline DyAl${}_2$

\jour Chelyab. Fiz.-Mat. Zh.

\yr 2020

\vol 5

\issue 4(2)

\pages 618--626

\mathnet{http://mi.mathnet.ru/chfmj217}

\crossref{https://doi.org/10.47475/2500-0101-2020-15421}

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This publication is cited in the following 1 articles:

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Chelyabinskiy Fiziko-Matematicheskiy Zhurnal

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