Solid‐state caloric effects as intrinsic thermal responses to different physical external stimuli
(magnetic‐, uniaxial stress‐, pressure‐, and electric‐fields) can achieve a higher energy …

Fe 2 P-type compounds exhibit a giant magnetocaloric effect (MCE) and are extensively
studied for room temperature applications. The reduction of their transition temperature …

In the present work, we report on the structural, magnetic, and magnetocaloric properties of
the (Pr, Sm) 2 Fe 17 system prepared by arc melting under high pure argon and …

We report the magnetocaloric properties of two Fe-containing quinary bulk polycrystalline
alloys of nominal compositions Ni 41 Co 7 Fe 2 Mn 40 Sn 10 and Ni 41 Co 6.5 Fe 2.5 Mn 40 …

Giant magnetocaloric effect in Mn 1.8 Fe 0.2 (P 0.59 Si 0.41) x (x= 1.00, 1.01, 1.02, 1.03,
1.04) alloys is assessed for cryogenic temperature applications. We found that the Curie …

We provide comparative studies of the structural, morphological, microstructural, and
magnetic properties of MnFePSi-glass-coated microwires (MnFePSi-GCMWs) and bulk …

The effect of the heat treatment on the magnetism, magnetocaloric effect and microstructure
formation has been systematically studied in Fe-rich (Mn, Fe) y (P, Si) melt-spun ribbons …

Abstract The Fe 2 P type Mn–Fe–P–Si alloys exhibit a giant magneto-elastic first-order
transition, but the large hysteresis limits their performance. Crystal structure evolution and …

Peltier cell calorimetry is a powerful technique to record both the heat capacity and the latent
heat, yet its availability is limited as it often requires homemade dedicated cryostats. Here …

The influence of off-stoichiometry and of doping with the 5d transition metal Ta has been
studied in the quaternary (Mn, Fe) 2 (P, Si)-based compound, which is one of the most …