Disorder effects in giant magnetocaloric materials
authors Amaral, JS; Amaral, VS
nationality International
journal PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE
author keywords disorder effects; magnetic refrigeration; magnetocaloric effect
abstract In striving for mass production of magnetocaloric materials for refrigeration applications, one has to face the fact that these will not be laboratory-grade materials, and will necessarily present (at the very least) composition gradients due to lower quality precursors. One can expect some probable consequences from this, namely that the maximum value of magnetic entropy change (S-M) will decrease compared to a pure material, but also some broadening of the S-M(T) curves should occur, as observed in some elementary ferromagnets. Some theoretical work has focused on this topic, for second-order phase transition systems via the Landau theory of phase transitions and the molecular mean-field model. Still, these theoretical considerations do not directly apply to first-order phase transition (giant magnetocaloric effect) systems. We here present a study on the effect of disorder on the magnetic and magnetocaloric properties of first-order phase transition systems. We employ the Bean-Rodbell model, and consider disorder to be described by a width of a Curie temperature distribution. We show how disorder effects smooth the discontinuities of magnetization and entropy change, and also affect magnetic hysteresis. We show how for sufficiently large disorder, the shape of the magnetic entropy curves approximate the distribution function. We discuss how the magnetic field dependence of magnetic entropy change is affected by disorder, in light of recent reports of second-order like dependence of magnetic entropy change on applied magnetic field, for disordered giant magnetocaloric effect La-Fe-Si-based samples. (C) 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
publisher WILEY-V C H VERLAG GMBH
issn 1862-6300
year published 2014
volume 211
issue 5
beginning page 971
ending page 974
digital object identifier (doi) 10.1002/pssa.201300749
web of science category Materials Science, Multidisciplinary; Physics, Applied; Physics, Condensed Matter
subject category Materials Science; Physics
unique article identifier WOS:000336217800001

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