Title
Magnetostructural transition and magnetocaloric effect in Mn0.5Fe0.5NiSi1-xAlxmelt-spun ribbons (x = 0.055 and 0.060)
11627/653811627/6538
Author
Arreguín Hernández, María de Lourdes
Dzubinska, Andrea
Reiffersm, Marian
Sánchez Llamazares, José Luis
Sánchez Valdés, Cesar Fidel
Varga, Rastislav
Abstract
Melt-spun ribbons samples of the multicomponent alloy Mn0.5Fe0.5NiSi0.940Al0.060 were prepared and the magnetostructural transition (MST) and related magnetocaloric properties studied for as-solidified ribbons and ribbon samples annealed between 800 and 950?°C for 4 h. The results are compared with those reported in the literature for melt-spun ribbons with an Al content x = 0.055 and bulk alloys. It is shown that all samples undergo a first-order MST from a paramagnetic Ni2In-type hexagonal structure to a ferromagnetic TiNiSi-type orthorhombic one. Ribbons show broader isothermal entropy change ?ST(T) curves with moderate maximum values of |?ST|max at 2 T (7.2–7.3 J kg?1 K?1) in comparison with the reported for bulk alloys. However, the average value of the magnetic hysteresis loss linked to the hexagonal-to-orthorhombic transition is low in comparison with the one reported for most magnetocaloric materials with first-order magnetostructural transitions. This work underlines the effectiveness of this rapid solidification technique to produce highly homogeneous ribbon samples of multicomponent alloys.
Publication date
2023Publication type
articleDOI
https://doi.org/10.1063/9.0000554Knowledge area
QUÍMICACollections
Publisher
American Institute of PhysicsKeywords
MagnetismPhase transitions
Differential scanning calorimetry
Thermal effects