Thermal management technology based on the magnetocaloric effect offers several
advantages over conventional gas compression cooling. The efficiency of magnetic cooling …

The temperature dependence of the isothermal magnetic entropy change, ΔS M, and the
magnetic field dependence of the refrigerant capacity, RC, have been investigated in a …

Low cost magnetocaloric nanomaterials have attracted considerable attention for energy
efficient applications. We report a very high relative cooling power (RCP) in a study of the …

Predicting the Curie temperature (T c) is a crucial problem in the field of amorphous alloys.
In this study, Fe-based amorphous alloys are taken as an example, and the composition and …

This study developed a machine learning model to accurately predict the isothermal
magnetic entropy change (-SM) in amorphous alloys, a key parameter for evaluating …

Magnetic and magnetocaloric properties of the amorphous Fe92− xZr8Bx ribbons were
studied in this work. Fully amorphous Fe89Zr8B3, Fe88Zr8B4, and Fe87Zr8B5 ribbons were …

Combining different experimental techniques, investigations in hexagonal P 6 3/mmc Er 2
Fe 17 show remarkable magnetovolume anomalies below the Curie temperature, TC. The …

We show a systematic study of the magneto-caloric response carried out on a series of
FeZrB (Cu) amorphous ribbons with different Curie temperature values in the 210–320K …

We have studied the correlation between the broadening of the isothermal magnetic entropy
change and the Curie temperature (TC) distribution in nanostructured Pr 2 Fe 17 and Nd 2 …

Abstract Amorphous Gd 68− x Ni 32+ x (x=− 3, 0, 3) ribbons were prepared by melt-spinning
method. The crystallization onset temperatures T x1 for Gd 68− x Ni 32+ x amorphous …