Title
On the correct estimation of the magnetic entropy change across the magneto-structural transition from the Maxwell relation: study of MnCoGeBx alloy ribbons
11627/503411627/5034
Author
Quintana Nedelcos, Aris
Sánchez Llamazares, José Luis
Sánchez Valdés, Cesar Fidel
Álvarez Alonso, Pablo
Gorria, Pedro
Shamba, Precious
Morley, Nicola
Abstract
"An accurate calculation of the different magnetocaloric-related magnitudes derived from the temperature dependence of the magnetic entropy change in materials exhibiting first-order magnetocaloric effect is imperative to correctly estimate the true potential of a specific material for refrigeration purposes. In this contribution, we present a meticulous study of two different thermal procedures to measure the set of isothermal magnetization curves from which the total field induced magnetic entropy change, ?ST, is calculated using the adequate Maxwell relation. If the accurate determination of ?ST for any temperature is pursued the thermal and magnetic history of the materials must be taken into account, and then, the unidirectional measurement of reversible isothermal magnetization curves after a thermal cycle is required. The analysis was conducted on MnCoGeB0.01 alloy ribbons that show a giant ?ST at the coupled magneto-structural transition, from a ferromagnetic (TiNiSi-type) phase to a paramagnetic (NiIn2-type) one, owing to the concomitant abrupt magnetization change. We suggest that the conclusions reached can be applicable to any other system displaying magnetocaloric effect originated at a first-order phase transition."
Publication date
2017Publication type
articleDOI
https://doi.org/10.1016/j.jallcom.2016.10.116Knowledge area
QUÍMICAPublisher
ElsevierKeywords
First order magnetocaloric effectMaxwell relation applicability
Magnetic entropy change
Refrigerant capacity
MnCoGeBx alloys